🖊️+Alloy, Raye and Foxglove's most favourite childhood memories?

Oooh, fun question!

Alloy: Alloy's favourite childhood memory is the summer, he spent at a robotic's camp, when he was 10. In an effort to get them to socialize on their own, their dad sent the twins to do different activities for three weeks during the summer. Alloy went to a robotic's camp, Raye to a dance camp. This is where his love for engineering and inventing was born, and he's still in contact with a lot of the friends he made then.

Raye: Raye's favourite childhood memory is the day, she discovered figure skating. Once, as Christmas a present, their parents took her and Alloy to an ice skating show. One of the performances was a couple skating to Saint-Saëns' "Le Cygne", and she fell completely in love. The rest, as they say, is history.

Raye & Alloy: Their shared favorite moment is one winter, where their dad took them to Finland on holiday. They spent nearly the entire time being awake all night, out looking at stars and the northern lights. It was one of Quasar's attempts to show them the magic of the world, and he absolutely succeeded.

Foxglove: This guy has three favorite childhood memories, and they're all connected.

First one is the day he shape-shifted into his fox body for the first time. It's tinted with a little bit of disappointment, because he really wanted to be a bird like his father, but he remembers the thrill of the magic of the moment more.

The transformation leads into his second favorite memory, which is the day he did magic for the first time successfully. The transformation marks when Goblin Princes get to start their magic lessons officially. It was a lot of hard work for a little boy to get to that point, but he'll never forget how proud Jareth and Sarah were of him that day.

Finally, his third favorite childhood memory is the first time, he got to mess with a Runner in the Labyrinth. Learning to cast his first spell was what made him pass the threshold, which his dad had set for him before he could help out.

For Foxglove, all of these three events marks his entry into adulthood and becoming a true Goblin King, and he hopes to give his son the same experiences eventually.

Find the Best Cylinder Works Kits in the uk Today

Find the Best Cylinder Works Kits for Your Motorbike in the uk Today If you're a motorbike enthusiast in the uk, you know that it is so essential to keep your ride running at its ideal. Whether you're destroying the roads or cruising down the highway, your motorbike's motor should be in top shape. One of the most outstanding ways of ensuring it performs like a monster is by getting a cylinder works pack. These packs are the mystery ingredient for getting more power, smoother rides, and better motor life span. Also, prepare to have your mind blown. On account of the wonders of the web and some astonishing UK marks, these packs are at present more direct to get in the uk than whenever in recent memory. Along these lines, accepting at least for now that you're ready to give your motorbike the update it merits, we ought to dive into how to find the best cylinder capability packs in the uk today.

What’s a Cylinder Works Kit, Anyway? A cylinder works unit is a bunch of motor parts intended to work on your motorbike's presentation. These packs generally incorporate the cylinder, gaskets, and at times a couple of different treats that cooperate to make your motor run smoother and more grounded. Consider it the motor's power sponsor — more power, less intensity, and improved productivity. Whether you're hoping to get somewhat more speed, further develop eco-friendliness, or simply ensure your motor endures longer, a cylinder works unit is the best approach.

Presently, motorbike fans in the uk are beginning to look past neighborhood choices, and that is where the UK comes in. UK brands have been known for creating probably the greatest motorbike parts, and these cylinder works packs are no exception. These UK-based brands are currently advancing toward the uk, giving you admittance to list performance parts for your ride.

Why Should You Care About Cylinder Works Kits? On the off chance that you've at any point felt like your motorbike could utilize somewhat more "oomph" or on the other hand assuming you need it to endure longer without consistent support, a chamber works unit is a strong investment. These kits do wonders for your motor's power result and the intensity of the executives. Furthermore, can we just be real — who does want to have a quicker, smoother bicycle?

What makes these packs considerably more unique is that UK brands, such as Wossner, Athena, and Vertex, have been known for their excellent design. These brands have a strong standing in the motorbike world for giving parts that perform at a high level as well as keep going for quite a while. In the uk, where streets can be unpleasant and weather conditions can be flighty, having solid and dependable motor parts is critical.

Things to Keep in Mind When Choosing Your Cylinder Works Kit 1. Pick a Trusted UK Brand: UK brands have been the gold standard in motorbike engine parts for years. Wossner, Athena, and Vertex are names you’ll hear often because they’ve earned their stripes with quality parts that motorbike enthusiasts swear by. These kits are made to last and give you maximum performance, so if you're looking for the best, UK is the place to start.

2. Check Compatibility: Only one out of every odd pack will fit each motorbike. Before you make a plunge and request, ensure the cylinder works unit is viable with your particular motorbike model. Most UK brands give clear compatibility charts, so you will not need to stress over making an off-base buy.

3. Look at the Materials: The best cylinder works units are made with top-quality materials, such as produced aluminum or high-strength alloys. These materials assist with heating the board and guarantee the parts can deal with the mileage of your motor. In a spot like the uk, where the streets can be brutal, you need a pack that can keep up.

4. Warranty and Support: UK brands frequently accompany strong client care and guarantees. In this way, if something turns out badly (fingers crossed it won't), you'll find harmony of psyche realizing you're covered. Continuously check the warranty details before making a buy to stay away from any shocks later.

5. Consider the Price: Without a doubt, UK-created parts can be a piece pricier, however, recollect — this is an interest in your motorbike's presentation and life span. You'll get far more worth out of a quality pack than you would with a modest knockoff that could separate after a couple of rides.

Where Can You Buy Cylinder Works Kits in the uk? The good news? It’s never been easier to get your hands on high-quality cylinder works kits in the uk. Thanks to online shopping, you can now find UK brands without even leaving your home. Platforms like Amazon the uk, Flipkart, and other expert sites convey first-class chamber packs, frequently delivered straightforwardly from the UK.

On the off chance that you're the sort who likes to shop face-to-face, neighborhood motorbike shops are likewise moving forward with their game. An ever-increasing number of stores in the uk are bringing in elite performance parts from the UK, so it merits looking at the ones in your space. You might talk with the retailers or mechanics to see what they suggest in light of your motorbike model.

Final Thoughts: Your Motorbike Deserves the Best By the day's end, your motorbike has the right to run at its ideal, and a cylinder works unit is one of the most outstanding ways of getting that going. These units are intended to give your motor more power, smoother rides, and a more drawn-out life. With UK brands driving how in quality and advancement, you should rest assured you're getting the best performance parts for your motorbike.

All in all, what are you sitting tight for? Whether you're hoping to race, journey, or simply work on your everyday drive, a great cylinder works unit is a unique advantage. Feel free to snatch one of these wonderful packs for your motorbike in the uk today — and prepare for a completely new riding experience!

DRDO lab seeks Mechanical Engineer for smart robotics; walk-in interview on Jan 24, 2024, in Hyderabad; Rs. 37,000 stipend.

New Post has been published on https://www.jobsarkari.in/drdo-lab-seeks-mechanical-engineer-for-smart-robotics-walk-in-interview-on-jan-24-2024-in-hyderabad-rs-37000-stipend/

DRDO lab seeks Mechanical Engineer for smart robotics; walk-in interview on Jan 24, 2024, in Hyderabad; Rs. 37,000 stipend.

DRDO Young Scientists’ Laboratory for Smart Materials (DYSL-SM) is seeking applications for a Junior Research Fellowship (JRF) position. The laboratory focuses on the development of smart material technology solutions for national defense, with expertise in accelerated materials development, micro-robotics, and stealth technologies.

The JRF position is for the development of smart materials based robotic applications, including shape memory alloy and piezoelectric materials. The essential qualification for the position is a B.E./B. Tech. in Mechanical Engineering with a first-class and a valid GATE score, or an M.E./M.Tech. with a first-class in Mechatronics/Robotics & Automation/Machine Design/Solid Mechanics and a B.E/B.Tech in Mechanical Engineering with a first-class.

Candidates with working knowledge of finite element packages, CAD, 3D printing, composite materials, basic electronics, and instrumentation are preferred. The walk-in-interview will take place on January 24, 2024, at the DRDO Township in Kanchanbagh, Hyderabad.

During the interview, candidates are required to bring all original certificates and submit the prescribed application form with a recent passport size photograph. One set of self-attested copies of all degrees/academic qualification certificates/mark sheets/experience certificates should also be submitted.

The screening of eligible applications will be based on GATE score, marks secured in the degree, fulfillment of desirability criteria, and relevant work experience. The GATE score should be valid as of the date of the interview.

Based on the interview, a panel of candidates will be drawn for the anticipated vacancy, which will be valid for one year. The fellowship emoluments for the JRF position are Rs. 37,000/- per month with applicable H.R.A. and other emoluments as per DRDO rules. The initial tenure of the position is for two years, with the possibility of subsequent upgradation to SRF grade as per DRDO guidelines.

The age limit for the JRF position is a maximum of 28 years, with relaxation of 5 years for SC/ST candidates and 3 years for OBC candidates. Only candidates who have completed the course and been awarded a degree/provisional certificate are eligible to apply.

Candidates who have previously been awarded a JRF position in any of the DRDO Laboratories/centers are not eligible to apply again. Candidates working in government/public sector undertakings/autonomous bodies should provide a no-objection certificate.

The offer of fellowship does not guarantee absorption in DRDO under any circumstances. JRF candidates may be allowed to register for part-time Ph.D. (if selected) with any university/institution during the tenure of the fellowship, subject to approval from the Director, DYSL-SM.

Defence Research and Development Organisation (DRDO) is conducting a walk-in-interview for the position of Junior Research Fellow (JRF) at the DRDO Young Scientists’ Laboratory for Smart Materials (DYSL-SM).

The laboratory specializes in accelerated materials development, micro-robotics, and stealth technologies.

The JRF position is for the development of smart materials based robotic applications including shape memory alloy and piezoelectric materials.

The essential qualification for the JRF position is a B.E./B. Tech. in Mechanical Engineering with a valid GATE score or M.E./M.Tech. with first class in Mechatronics/Robotics & Automation/Machine Design/Solid Mechanics and B.E/B.Tech in Mechanical Engineering with first class.

Screening of eligible applications will be based on GATE score, marks secured in degree, fulfillment of desirability criteria, and relevant work experience.

Introduction

DRDO Young Scientists’ Laboratory for Smart Materials is conducting a walk-in-interview for a Junior Research Fellow (JRF) position.

The laboratory specializes in accelerated materials development, micro-robotics, and stealth technologies.

JRF Position

The JRF position is focused on the development of smart materials-based robotic applications.

The project includes working with shape memory alloy and piezoelectric materials.

Essential Qualification

B.E./B. Tech. in Mechanical Engineering with a valid GATE score.

M.E./M.Tech. with first class in Mechatronics/Robotics & Automation/Machine Design/Solid Mechanics and B.E/B.Tech in Mechanical Engineering with first class.

Desirable Criteria

Working knowledge of finite element packages, CAD, 3D Printing, Composite Materials, basic electronics, and instrumentation.

Application Process

‘WALK IN FOR INTERVIEW’ at DLOMI, DRDO TOWNSHIP, KANCHANBAGH, HYDERABAD-500058 on January 24, 2024, @ 09:30 hrs.

Bring all original certificates and submit the prescribed application form with supporting documents.

Application Form can be downloaded from the DRDO website.

Screening Process

Eligible applications will be screened based on GATE score, marks secured in the degree, fulfillment of desirability criteria, and relevant work experience.

Panel of Candidates

A panel of candidates for the anticipated vacancy will be drawn based on the interview.

The panel will be valid for one year.

General Conditions

DYSL-SM reserves the right to not select any candidate if suitable candidates are not available.

DYSL-SM reserves the right to amend/modify or summarily cancel this advertisement.

Fellowship Emoluments

Rs. 37,000/- per month for JRF with applicable H.R.A. and other emoluments as per DRDO rules.

Tenure and Age Limit

The post is temporary in nature with an initial tenure of 02 (Two) years.

The age limit for JRF is a maximum of 28 years as of the date of application.

Summary and Main Message

DRDO Young Scientists’ Laboratory for Smart Materials is seeking a Junior Research Fellow in Mechanical Engineering for smart materials-based robotic applications.

Walk-in-interview on January 24, 2024, in Hyderabad.

Monthly stipend of Rs. 37,000/-

Join us in advancing smart material technology solutions for national defense.

Driving Industrial Precision: Analyzing Innovations and Trends in Actuators for 2023

In the realm of industrial automation and machinery, actuators play a pivotal role as the silent workforce behind countless mechanical movements. As we step into 2023, the Actuators Market continues to evolve, offering sophisticated solutions that drive precision, efficiency, and innovation across diverse industries.

Understanding Actuators:

Actuators are mechanical or electromechanical devices that convert energy into mechanical motion, enabling the control and movement of machinery and systems. In 2023, these devices come in various forms, from electric and hydraulic to pneumatic and piezoelectric, each catering to specific applications based on their unique capabilities.

Pioneering Technological Advancements:

The Actuators Market of 2023 is characterized by technological advancements that revolutionize industries. Innovations in materials, such as shape memory alloys and smart polymers, enhance actuator efficiency and responsiveness. Additionally, integration with sensors, IoT, and advanced control systems optimizes precision and functionality.

Diverse Industrial Applications:

Actuators find applications across a wide spectrum of industries. In automotive manufacturing, they power automated assembly lines. In aerospace, they control aircraft components. Moreover, actuators facilitate robotic movements in manufacturing and healthcare, demonstrating their versatility in various industrial settings.

Enabling Smart Automation:

With the rise of Industry 4.0, the Actuators Market embraces smart automation. Actuators equipped with sensors and connectivity capabilities enable predictive maintenance, real-time monitoring, and remote control, enhancing operational efficiency and minimizing downtime across manufacturing and processing plants.

Market Dynamics and Evolution:

The Actuators Market continues to witness dynamic growth. The demand for actuators with higher accuracy, speed, and reliability drives innovation. Ongoing developments focus on miniaturization, energy efficiency, and cost-effectiveness to meet evolving industrial needs.

For More Info@ https://www.gmiresearch.com/report/global-actuators-market-pneumatic-hydraulic-electrical/

Forecasting Future Trends:

Looking ahead, the Actuators Market is poised for significant advancements. Anticipated trends include increased adoption of electric actuators, advancements in robotics, and the integration of artificial intelligence to enhance actuator functionality, thereby further streamlining industrial processes.

Conclusion:

In 2023, the Actuators Market stands as an indispensable contributor to industrial efficiency and automation. Its evolution from basic mechanical devices to sophisticated, smart actuators marks a paradigm shift in how industries harness motion control technology. As these devices continue to advance and diversify, their role in driving innovation, precision, and reliability across industries remains pivotal, shaping a future where machinery and systems operate with unprecedented accuracy and efficiency.

From Aerospace to Medicine: Nitinol's Diverse Applications

Introduction

Nitinol is a unique shape memory alloy composed of nickel (Ni) and titanium (Ti). It has transcended boundaries and found its way into an impressive array of applications across various industries. With its remarkable ability to "remember" and return to a designated shape, Nitinol has become an invaluable tool in fields as diverse as aerospace and medicine. In this article, we will explore the multifaceted applications of Nitinol and its role in shaping a future where adaptability, precision, and reliability are paramount.

Figure 1. Nitinol Products

1. Aerospace Advancements:

In the realm of aerospace engineering, where innovation is the norm, Nitinol has established itself as a material of choice. Its remarkable properties, such as shape memory and superelasticity, make it an ideal candidate for numerous applications:

Actuators: Nitinol actuators provide a compact and reliable solution for controlling various mechanisms in spacecraft and aircraft. Their ability to respond to temperature changes ensures precision and dependability.

Adaptive Structures: Nitinol's shape memory effect allows for the creation of adaptive structures that adjust to changing conditions. This capability is particularly valuable in aerospace, where flexibility and resilience are critical.

Sensors: Nitinol sensors can accurately measure and respond to a wide range of physical parameters, making them vital for monitoring and control systems in aerospace applications.

Related reading: Nitinol – Amazing Shape Memory Alloy

2. Life-Saving Medical Devices:

Nitinol has left an indelible mark on the field of medicine, where its biocompatibility, superelasticity, and shape memory properties have opened new frontiers in patient care:

Stents: Nitinol stents have revolutionized cardiovascular treatments. They can be compressed for minimally invasive insertion, and upon reaching the intended site, they expand to their original shape, ensure proper blood flow, and prevent artery blockages.

Orthodontic Devices: Nitinol wires are used in orthodontics to create braces and dental archwires that exert gentle pressure, gradually straightening teeth. Their superelasticity and flexibility make orthodontic treatments more comfortable and efficient.

Surgical Instruments: Nitinol's precise shape memory allows for the creation of surgical instruments that can adapt to different surgical procedures. So, it could improve surgical outcomes and reduceinvasiveness.

3. Beyond Boundaries:

Although aerospace and medicine are two prominent fields, Nitinol’s applications extend far beyond these domains. It is making its presence felt in consumer electronics, robotics, automotive engineering, and more.

Orthodontics:

Nitinol's flexibility and ability to return to its original shape make it ideal for orthodontic applications. Nitinol wires are widely used in braces, ensuring a gradual and controlled shift of teeth into their desired positions. So, patients could enjoy more comfortable and effective orthodontic treatments.

Robotics and Automation:

Nitinol is increasingly being employed in robotics and automation since its shape memory effect can be harnessed to create compact and efficient solutions for actuation and control. This is particularly valuable in applications where space is limited and precision is critical.

Consumer Electronics:

Nitinol is making its way into consumer electronics as well. It offers a compact and efficient solution for managing heat in small electronic devices, a growing need as consumer electronics become more compact and powerful.

Automotive Engineering:

The automotive industry is harnessing Nitinol's unique properties in various applications, from smart materials that improve fuel efficiency to safety systems that respond to changing conditions.

Energy Generation:

Nitinol is also finding use in energy generation and harvesting systems. Its ability to convert temperature fluctuations into mechanical motion is being explored for applications in energy scavenging.

Adaptive Structures:

In civil engineering and infrastructure, Nitinol's superelasticity is utilized in adaptive structures that can absorb and dissipate energy during seismic events, making buildings and bridges more resilient.

Conclusion

In a word, Nitinol's diverse applications range from aerospace to medicine underscore. Whether it's enabling astronauts to explore the cosmos, offering patients life-saving medical interventions, or enhancing the performance of consumer devices, Nitinol exemplifies the limitless potential of material science and engineering. As the world seeks ever more innovative solutions, Nitinol remains a symbol of adaptability, precision, and reliability in the pursuit of progress. For more information, please check https://www.refractorymetal.org/.

Global Shape Memory Alloys Market Size, Scope, Growing Demand, Opportunities And Forecast to 2027

The Global Shape Memory Alloys Market published by VynZ Research provides a study on product scope, market overview, market prospects, industry growth, and market restraints and challenges. The Global Shape Memory Alloys Market studies global, regional, and country-level market sizes, market segmentation, industry share, competitive dynamics, sales forecasts, implications of international and domestic market players, value chain optimization, trade regulations, latest developments, opportunities analysis, business strategy growth analysis, product launches, geographical expansion, and technological breakthroughs.

The Global Shape Memory Alloys Market is expected to register significant growth by 2027

Get a free sample copy of the Research Report: https://www.vynzresearch.com/chemicals-materials/shape-memory-alloys-market/request-sample

How to choose sports headphones?

For some friends who like sports, the most expensive is not all kinds of sports equipment, but the most unfair place to spend money is the sports bluetooth headphones. From the original wired headphones to trying all kinds of wireless headphones, some people have bought dozens of headphones and worn out quite a few. In-ear, conduction all tried, paid a lot of IQ tax. So this article, will give you some recommendations I think cost-effective headphones.

Why do we wear sports bluetooth headphones while exercising?

Sports training is a very monotonous thing, especially if you are engaged in sports with a strong sense of rhythm (running, aerobics, cycling, dance, fitness, etc.) you can choose the same music as the rhythm of sports, you can give full play to the role of music on emotional regulation, enhance interest, improve efficiency, on the other hand, music can also be an appropriate distraction.

Choose sports Bluetooth headset can refer to the following 6 points.

Wear stability: according to their own cochlea to choose the right one, in-ear headphones with ear hooks will be better.

Waterproof level, generally in the business headset publicity page will be marked, with IPXX to indicate that the first X is the dustproof level, the second X is the waterproof level, the higher the number of dustproof waterproof effect is better, generally IPX5 enough, the highest level of waterproof headset is IPX8.

 Life time: this life time is certainly the longer the better, but under normal circumstances the longer the headset weight will be heavier, wearing comfort will be reduced.

Safety: Now many in-ear headphones are good physical sound insulation, in outdoor sports many surrounding sounds will be shielded, which is very dangerous. So we choose as far as possible with a pass-through mode (active noise cancellation headphones are equipped with pass-through mode) of the Bluetooth headset or bone conduction headphones.

Bluetooth connection stability: the higher the bluetooth version the better + bluetooth decoding technology the more advanced the better, this side also has a relationship with the phone system compatibility.

Bone conduction headset is currently the most suitable for outdoor sports Bluetooth headset type, ideal for sports, especially outdoor sports, such as cycling, climbing, swimming, etc.!

Some sports Bluetooth headset recommendations

Bone Conduction Open Run Headphones

Carry this bone conduction open sports bluetooth headphones to enjoy your life! Firstly, no damage to the eardrum and no sound leakage.

Secondly, the material consists of memory full titanium alloy and liquid silicone. According to the size of different head adaptations, the shape of any twist, a hundred folds constantly.

Thirdly, an IP67 rating makes these completely sweat and waterproof. 

Besides, this wireless sports bluetooth headphone has built-in 200mAh rechargeable lithium battery. It needs 1.5 hours for a full charge and work continuously for ten hours. The charging port is Type-c fast charging.

Lastly, bluetooth 5.0. It is stable and uninterrupted. Intelligent noise cancellation and HD voice calls. 

Bluetooth Swimming Earphone

Wear this bone conduction bluetooth swimming earphone to enjoy your life! No ear plugging, comfortable to wear, say goodbye to clogging, for the ear to reduce the burden.

The material consists of memory full titanium alloy and liquid silicone. Soft and skin-friendly, can bend at will. 

IPX8 waterproof and swimable.

This earphone has built-in 170mAh rechargeable lithium battery. It needs 1.5 hours for a full charge and work continuously for eight hours. The charging port is Type-c fast charging.

Bluetooth 5.0. It can free you hands to answer phone calls, intelligent noise cancellation and HD voice calls. 

This bluetooth swimming earphone comes with 16G memory, so you can enjoy great music even offline.

Running Open-Ear Headphone

Firstly, the material consists of memory full titanium alloy and liquid silicone. Soft and skin-friendly, can bend at will.

Secondly, an IP67 rating makes these completely sweat and waterproof. 

Thirdly, ultra-lightweight, unrestricted, freedom of movement, no burden or pressure on the ears.

What's more, this sports bluetooth headphone has built-in 170mAh rechargeable lithium battery. It needs 1.5 hours for a full charge and work continuously for eight hours. The charging port is Type-c fast charging.

Finally, bluetooth 5.0, more stable transmission and lower power consumption. It can free you hands to answer phone calls, intelligent noise cancellation and HD voice calls. 

Bone Conduction Cycling Wireless Earphones

The material consists of memory full titanium alloy It can bend at will.

Sinkable ear hook, glasses compatible with zero burden.

Ergonomic design, jumping does not fall off, running does not shake, enjoy the movement in comfort.

An IP67 rating makes it waterproof. 

This bone conduction cycling wireless earphones has built-in 170mAh rechargeable lithium battery.

It needs 1.5 hours for a full charge and work continuously for eight hours. The charging port is Type-c fast charging.

Bluetooth 5.0. It can free you hands to answer phone calls, intelligent noise cancellation and HD voice calls. 

Neckband Smart Bluetooth Earphones

Firstly, the material consists of liquid silicone + nickel titanium alloy. Soft and skin-friendly, bend at will.

Secondly, an IP67 rating makes these completely sweat and waterproof. 

Thirdly, this neckband smart bluetooth earphones has built-in 150mAh rechargeable lithium battery. It needs 1 hours for a full charge and work continuously for 12 hours. The charging port is Type-c fast charging.

Finally, it has built-in microphone and Bluetooth 5.0. It can free you hands to answer phone calls, intelligent noise cancellation and HD voice calls. 

Welcome to visit our website for more sports bluetooth headphones. I believe there is always one suitable for you. 

Interdimensional Transport of Omega Timeline

Name

Voider

Description

Voider is a type of transportational vehicles that is capable of safe travel through the interdimensional Void.

Voiders were invented in Omega Timeline, under the Council X's guidance.

Voiders were meant for flights between the Timelines, Worlds and Universes.

General properties

Average dimensions

15×5×4 for the fuselage, 7.5×0.5×3 for the wings - in meters.

50×15×12.5, 25×1.5×10 - in feet.

Appearance

There are many different types of Voiders, but most of the time they have an elongated, flattened on its ends, fuselage, with wide wings.

Cockpit

Open Cockpit is made of glass and extends beyond the fuselage. Due to the lack of armor, such a cockpit uses most of the energy of the Voider's shields. However, it provides a better view for the pilot, while also allowing the use of magical, optical and electromagnetic observational devices.

Closed Cockpit is located inside of the fuselage. The smaller the cockpit and the deeper it is inside the fuselage, the more protection can be provided to the pilot. Due to the lack of a direct view, the pilot has to rely entirely on observational devices.

Plating

The Voider plating is always dark purple, because it consists of Voidan, an enchanted composite material consisting of layers of Nitinol (nickel-titanium alloy that has shape memory), Unicum (high-strength gold-nickel-copper alloy), high-carbon chromium-vanadium steel, and also copper vacuum nano-tubes. The structure of this material and the magic used in it, allow it to withstand the destructive effects of the Void.

Structural elements

Voiders consist of different structural elements that have their own purposes.

Cockpit is the mainframe of the Voider. The controls for every and each system on the board are here.

Tech Unit is a place where all of the most important elements of the Voider are gathered. Energy Sources, Info-Mass Converters, ID-Portal tech, Shield Generators, Software, etc.

Engine is a thrust unit that allows the Voider to move in space. If a special fuel is needed, it may be contained in the same segment as the Engine or in a Tech Unit.

Weapons Bay is a place that contains the weaponry of the Voider, including its ammunition.

Storage Unit is a place that contains the cargo that the Voider may carry, including the landing troops.

Radiator is an active cooling system that works in two modes, depending on the environment. In the atmosphere, radiators use convection, but in the vacuum they switch to use the irradiation.

Armor Unit is an armored segment.

Classification

Every model of any structural element of the Voiders has its own name that describes its purposes, version and main functions.

Purpose

Abbreviation that describes main characteristics of the model. Most of the time consists of the first letters of words used in the name of the structural element.

Example:

IDTS-E - Impulse-Diffusion Thermonuclear Synthesis Engine

Version

Numeric or literal value that describes the progress that was achieved by the developers of the structural element while updating the old versions or creating a new technology.

Version is written in arabic numerals if it's just an updated version with unnoticeable(most of the time) changes in the technology.

Version is written in roman numerals if the amount of symbols in it is less or equal to the amount of symbols in the arabic number.

Version is written in greek letters if the version has some properties that stand out of the rest.

α - Alpha - First Version.

Ω - Omega - Last Version.

Δ - Delta - Description of a generation which the version was developed in. With every new generation, Δ gets marked with a corresponding number. Versions can be counted from the first generation but most of the time the counter resets every time the new generation gets developed(Δ gets marked in this example). Version Δ replaces versions α and Ω for separate generations. Nevertheless, Δ1 can't be used instead of α.

Σ - Sigma - Version that is significantly Changed, Unstable, Experimental or isn't Tested thoroughly.

Ξ - Xe - Version that uses technology that was invented in another universe and is undeveloped in Omega Timeline.

δ and γ - Beta and Gamma - Optional prefixes. They are written before the version numbers. β - Underpowered version. γ - Overpowered version.

* - Asterisk - Optional postfix. It is written after the version numbers. Asterisk means that the model was fine-tuned. The changes are very small, almost undetectable.

Prefixes and postfixes may be used together, but only to some extent. Using Σ would be much more preferable.

Examples:

6 - Version 6

L - Version 50

Δ7-87 - Gen 7, Version 87 - (let's say that other generations had 100 versions each) Version 787

βα - Underpowered Version 1

Ω* - Last Version, Fine-tuned

Standart Configurations

Configurations split the space inside of the Voider into segments which contain structural elements. The more there are segments, the less there is space for each. That decreases the efficiency of configuration. Abundance of free space is harmful for the efficiency, too. The need for balance of space inside of the Voider led to the invention of standart configurations for the Voiders of specific types.

TriSeg-HV

Triple Segment - High-Velocity

Configuration that is mostly used in the structure of Light-class scouts, interceptors or bombers. Constructional decisions let the dimensions and weight of the craft to shrink, and that positively affects overall maneuverability. That configuration is the only one which sets the preferred energy source as a capacitor, not a reactor. That is caused by a lack of radiational shielding that protects pilots and crew from reactor's radiation(not every reactor emits radiation though).

Segment 1/3 - Open Cockpit

Segment 2/3 - Tech Unit with the reactor / capacitor and the additional devices.

Segment 3/3 - Engine / Weapons Bay

Wings(Segment 2/3) - Weapons Bays / Radiators / Engines

Example:

Name: Visionary

Model: HVSS-12* - High-Velocity Stealth Scout, 12, Fine-tuned

Description: Stealth scout with no weapon systems that is used for short flights. Uses TriSeg-HV.

Segment 1/3 - Open Cockpit

Segment 2/3 - Tech Unit with a condenced ether capacitor CEC-Δ9 and stealth device SDME-γΔ3-76

Segment 3/3 - Kinetic repulsion magical-energy engine KRME-E-ΔX-C

Wings(Segment 2/3) - Kinetic repulsion magical-energy engines KRME-E-βΔX-C, radiators

QuadSeg

Quadruple Segment

Most popular configuration for every type of Voiders. This structure is always multi-role, giving the pilot enough firepower, speed, maneuverability and function.

Segment 1/4 - Open / Closed Cockpit

Segment 2/4 - Weapons Bay / Storage Unit

Segment 3/4 - Tech Unit with the reactor and the additional devices

Segment 4/4 - Engine / Weapons Bay / Storage Unit

Wings:

Segment 2/4 - Weapons Bays(double/single) / Engines(double/single) / Radiators(double/single)

Segment 3/4 - Weapons Bays(double/single) / Engines(double/single) / Radiators(double/single)

Example:

Name: High-Tower

Model: AVDC-Ω - Anti-Voider Defense Complex, Last Version

Description: Heavy-class fighter that is used to destroy Light- and Middle-class Voiders. Uses QuadSeg.

Segment 1/4 - Closed Cockpit

Segment 2/4 - Kinetic magical-energy railgun turret KME-RGT-ΔXI-52

Segment 3/4 - Tech Unit with magical-magnetic cold thermonuclear synthesis reactor MCTS-R-ΔV-CLX* and the Core EtMTD-Δ7-XC

Segment 4/4 - Kinetic magical-energy railgun turret KME-RGT-ΔXI-52

Wings:

Segment 2/4 - Magical-energy missile launchers ME-ML-Σ

Segment 3/4 - Impulse-diffusion thermonuclear synthesis engines IDTS-E-Δ9-88

PentaSeg-HP

Pentuple Segment - High-Power

Configuration that was made specifically for SuperHeavy-class fighters, Heavy-class bombers or Light-class cruisers. Firepower and defenses are maximized.

Segment 1/5 - Weapons Bay / Additional Tech Unit with a Shielding Device / Armor Unit

Segment 2/5 - Closed Cockpit

Segment 3/5 - Weapons Bay / Storage Unit

Segment 4/5 - Tech Unit with the reactor and the additional devices

Segment 5/5 - Weapons Bay / Engine

Wings:

Segment 2/5 - Weapons Bays(double/single) / Armor Units

Segment 3/5 - Weapons Bays(double) / Engines(double) / Radiators

Segment 4/5 - Engines(double/single)

Example:

Name: Rampage

Model: Elite Model

Description: Elite Light-class cruiser that is painted in a color of bright blood and uses PentaSeg-HP. This one took some hits. It is the one of the most old Voiders ever used by Omega Timeline, but specifically this model is equipped with all of the newest technology. Rampage gets updated every time the new tech gets developed. This makes it one of the most honored and dangerous ships of Omega Timeline. Differs from the other Voiders with extremely short and wide wings. Rampage is owned by Epsilon from the Council X.

Segment 1/5 - Magical-Energy Plasma-Kinetic Ram

Segment 2/5 - Closed Cockpit with the Inertial Compensators

Segment 3/5 - Anti-matter missile turret AMAW-MT-Δ2

Segment 4/5 - Tech Unit with anti-matter reactor AMR-Δ2 and the Core EtMTD-Δ8

Segment 5/5 - Impulse-diffusion anti-matter engine IDAM-E-Δ2

Wings:

Segment 2/5 - Armor Units

Segment 3,4/5 - Impulse-diffusion anti-matter engine IDAM-E-Δ2

to all the boys i’ve loved before; huang renjun

Dear Renjun,

   I can’t believe you’re gone already. It’s only been a few months since I’ve known you, yet you’ve already become such a part of my routine. Or, were, at least. It felt so peaceful to be with you, and I loved it. There hasn’t been a day that’s gone by since I’ve met you that I haven’t seen you.

   I’m grateful for everything. This is probably the most calmly I’ve ever dealt with heartbreak -- or rather, instead of feeling like a heartbreak, this feels like a, “see you soon.” 

   Regardless of our short time together, I’m sure I love you. This isn’t some intense forest fire of love, it’s a quiet appreciation, a quiet affection, it’s sitting in front of couches on the carpeted floor and cuddling while reading, it’s just laying awake next to each other, fingers intertwined. It’s simple. It’s sure. I like it. I was sad to see you get back on that plane to China, but I knew somewhere deep in my heart that it wasn’t a goodbye. 

   Thank you for the goodbye kiss, while we may not be together, I’ll cherish it forever. 

Dear Renjun,

    Out of all my loves I’ve had these past few years, I must say, Huang Renjun, you were the most different. There was no firey chemistry between you and me, there was no life-long friendship, either. There was no drama and no insecure feelings with you. Everything felt natural and tranquil with you --  like our love would last forever. Almost like an elderly couple calmly rocking on their wooden chairs as people pass them by. I didn’t feel the need to prove anything to you. 

   The tranquility was something I really enjoyed coming out of my chaotic high school years, and I’m glad I met you. At first, I was sure you’d be a summer fling, but I quickly realized I was wrong. I don’t remember when I realized I loved you, but I know that it felt really natural when I said it quietly to myself. I can’t pinpoint what made me fall for you either, there are a plethora of options.

   Maybe it’s your bursts of energy, your argumentativeness, your dry humor and wit, your gentle smile and touch, the way you looked when you focused on a sketch or book -- the list is endless. But the trait that stood out the most was how you anchored me on days I was still hurting (from Mark, but you never asked who I was crying over or why. You just held me.) I’d never met someone like you. Someone who...loved me so unconditionally without saying the words. Our love may have been the most strange to onlookers; our kisses with no labels, our random inside jokes, our spending every day with each other. It was all strange. But I enjoyed every goddamn second of it.

   Then you got an emergency call home. And while you never told me what it was about, I could tell it was bad. Your face had never looked so solemn and dejected. I remember just rubbing your shoulder and whispering that you should go home because your family needed you. And I remembered you kissed me again, then.

   There were no extreme acts of love or affection, no shows, and no attempts to dig into my past. This love was present. you were in love with the present-me and saw no point in snooping about my past -- you figured I’d tell you one day when I was ready. Thank you. Maybe next time we meet, I’ll tell you everything. 

   Until then, please keep being that anchor to someone, even if it’s not me. But please, let someone anchor you, too. You deserve to float peacefully at sea, no storms on your horizon. 

Love, Y/n.

///a scene from the heart///

   Renjun sat next to you, his finger pinching his bottom lip unknowingly as his eyes trained on the words on the beige paper. You offered him the couch for his first visit to your humble home, but he insisted on sitting on the carpet, back pressed to the front of your couch. You’re a kind hostess, so you sat down next to him, your own book in your warm hands, not forgetting to turn on wordless music.

   Renjun was a simple boy; he was easy to read and open. His anger was upfront and honest, straightforward. His humor was dry and sarcastic, nihilistic even. His love was obvious, longing stares and gentle brushes of his hand against yours.

   Which was what he was doing right now.

   His hand right hand was laying flat on the fuzzy white rug, his pinky interlaced with your own. Your heart felt calm and steady, but full of happiness and serenity. A smile bloomed on your face, your eyes not really picking up the words on the page.

   “What’s up?” He whispers, leaning into you, looking down at your page, wondering what could’ve caused such a beautiful smile to erupt from your pretty lips. More of his fingers touched yours. Maybe it was all the heartbreak you had been through, maybe it was recklessness, but you confidently grabbed his hand, tangling your fingers together. You scooted closer to him, filling the space your barely-touching hands were taking up once before. “Hmmm, nothing.” Your voice was soft and dreamy, Renjun mused, his eyes turning into crescent moons. 

   Renjun let himself indulge in your aura and side profile, admiring the shape of your nose and the way your lips lulled open when you were too focused on reading. The music only made him happier. “What’s up with you?” You teased, giving him a side-glance before turning your head fully to him, not minding the close proximity and the clash of your loving gazes. 

   His gray sweat-clad knee was touching your bare one, your hands joined together in his lap, a book in his opposite hand. This was the routine for the past few months, and he wouldn’t ever want anything else. Renjun noticed how his eyes kept on falling back to your mouth and your small red tongue that periodically darted out past your plush and bitten lips. “I just really want to kiss you,” he sighed out, not thinking twice about his amorous language. 

   Red and shock crept across your cheeks and ears and you let out a small squeak, covering your mouth out of embarrassment from the strange sound. His hand was still in yours though, so really he just had easier access to take his hand out of yours and pull you closer to him. And he did.

   A light chuckle left his throat and he leaned in, his eyes staying open until he felt the cloud-like plush lips touch his; melting together like alloy. Sighs of content left your mouth repeatedly as your book went abandoned on the side of you, page unbookmarked, words not remembered. All you cared for was the way Renjun’s hands found their way to your waist and you found your hands tangled in his black-brown hair, legs straddling him and tongue tangling with his much like your hands did earlier. 

   Renjun was quiet ecstasy; Renjun was a warm summer love that lasted forever; Renjun was too good to be true. 

///a scene from a broken heart///

   Three months passed fast. Too fast for your taste, but you didn’t really mind at first, because you figured that three months was nothing compared to the indefinite amount of time you’d eventually spend with Renjun. But the red string of fate that was tied ever so loosely to his pinky was still tied to his home, China. 

   Renjun was supposed to stay in Korea until he wanted to leave, but a call from a disheartened mother and father caused him to cancel his plans. Normally, if this was Renjun three months ago, he wouldn’t have minded. Because he missed home. But present-day Renjun wasn’t; he had found his home within you. But blood was thicker than saliva, so he bought the expensive tickets begrudgingly. 

   You both were sitting in the front of the airport, two hours early, his suitcases resting by his feet, your heart resting in your stomach. You wanted to see him off and insisted as such despite his weary looks. “I don’t want to see you cry. It’ll be harder for me to leave you,” he whispered, hand stroking your cheek. “I love you Renjun, and I want to see you go.” He had complied after your passionate words. 

   “I don’t want to leave.” A tear escaped Renjun’s stable emotional facade, and you gave him a sad smile, brushing the falling tear off his soft cheeks. “I know. I wish you wouldn’t either, but,” you moved the hair out his face, hand brushing through his locks with a loving touch, “I know we’ll be okay.”

   “How do you know that?” He sniffed, rubbing his red nose. You opened your mouth before noticing the time; it was time for him to get checked into the airport. You stood up, wiping your clammy hands on your denim jeans. “I don’t,” you admitted, “but I’d like to think the feeling we have for each other isn’t something you can just get rid of.” A sincere smile caused his ears to flush. 

   “You’re right.” 

   “I know.” Cue his first giggles since you picked him up earlier that day. While there was no label put on your relationship, there was a mutual feeling of exclusivity, one that you maintained throughout your time of knowing him. But you both had to face the truth -- distance was the devil. There was no true certainty of love lasting thousands of miles. 

   That’s why Renjun cried in front of you, tears flooding his face, then yours. That’s why Renjun pulled you into the tightest hug you’d ever felt. That’s why Renjun cupped your swollen face and pressed his lips to yours, eyes closed and eyebrows drawn together as if he was trying his hardest to encapsulate this memory, this feeling, and to remember -- that this wasn’t an obligation or an intense, “I love you,” but rather a delicate and hopeful “see you soon.”  

   He boarded the plane, silent and with a surprisingly light heart. He, truthfully, wasn’t sure he was ever going to see you again. But as he took off, he swore with his entire being that he saw your little dot with his jacket in your arms, waving at him. He could basically see the smile on your face without actually seeing so. He had a feeling then, that you’d cross paths in your future. And who knows, maybe it’d be for forever that time. 

///

masterlist

BD: Father’s Day

Summary: Father’s day with two day’s means twice the gift hunting

Hank had meant it as a joke, the world’s best dad’s mugs he’d gotten as a matching set for Erik and Charles. Raven had loved it and had gotten Peter to dip his hand in paint instead of signing the card.

With Peter now old enough to scribble properly Raven refuses to let this father’s day slip by without at least a card for each of his dads.

Peter’s had an obsession with glitter for a solid month; Hank assures both Erik and Charles it’s perfectly normal for a four year old, so when he asks Hank to get the glitter for his cards, Hank makes sure to buy the biggest jar he can find. When Peter tries to open the top, launching the contents everywhere and only half on his picture, Hank regrets ever showing him the glitter in the lab. He’s picking glitter out of his fur for months.

Peter insists Hank buys him more; he has to make his papa’s card sparkly like the powers he has.

While Hank is off trying to remove the substance and acquire more Raven takes over supervision. Which currently means being shape shifted into Erik so Peter can draw him properly.

Raven assures him that his portrait can replace the Mona Lisa and Peter’s so excited the remainder of the glitter Hank hand scraped up from the table is back onto his fur when Peter runs by.

Charles assures Hank he’ll give him a moment’s rest and takes Peter out to get something nice for Erik.

“So what should we get your Papa.”

“Something he doesn’t have.”

“Okay, hmm how about we have some lunch and have a think then.” Charles grins and Peter nods sticking his tongue out in concentration as Charles and him talk ideas back and forth.

Peter settles on the idea of the pair of cufflinks that Charles had suggested, Charles can tell he had something else in mind and prods at Peter until he explains; that he’d seen one of those pottery shops; where you’d learn to make your bowls and he wanted to be able to create something that his Papa could add metal too when he’d bring it home. Charles thinks it’s a fantastic idea; until Peter drags him to sit behind a wheel and they both end up covered in clay and with a bowl that leans dangerously sideways and almost has no opening at the top. Still Charles enjoys it enough to book a few more classes with Peter, so they’ll have plenty of chances to make birthday and Christmas presents for others.

When they get back Erik doesn’t question their clothes, just looks up from where he’s trying to pull as much actual metal up from the glitter that’s still embedded in the carpet.

“So you ready to go tomorrow? For our attempt at getting your daddy something?” Peter nods trying to blank his face like he’d seen most of the adults do when they had to talk about serious things.

“Yes!” He grins and Erik nods.

“Wait I thought we were finishing the cards tomorrow?” Raven frowns and Erik nods.

“Yes I was going to take him shopping in the morning and then he can work on the cards later.”

“Card; I already finished yours!” Peter grins and Raven nods, the plan having been settled.

“So what do you think we should get you Daddy?”

“Hmm.” Peter screws up his face like he’s thinking and suddenly Charles prods into his mind.

“Peter, your dad said to stop, ah, yelling ‘dad stay out’ to him. He won’t bother you while we’re shopping.”

“Well now he wont!” Peter beams and Erik laughs bringing him out to the shopping center. He keeps a close feel on Peter, the metal bracelet and buttons on most of his clothes hum as Erik reaches for them; a constant reminder of where his son is.

Peter stays close despite Erik’s assurance that he can wander, he can tell Peter’s not sure what to get Charles and he offers an ice cream as a way to volley ideas back and forth.

“I wanna get him…” Peter trails off and Erik waits as he finishes the last of his ice cream.

“A photo album.” Erik nods along with Peter, avoiding saying that since Charles is a telepath he can if he wants access anyones ‘pictures’ from certain memories.

“That sounds great sweetie, do you know where we can get one?”

“No, I wanna make one with you.”

“Oh, alright.”

It doesn’t take them as long as Erik though, Peter seems to have a fully formed idea and even has a list, Erik recognises Raven’s handwriting and he laughs a little at her question marks after the different types of metal. Erik finds the picking out of the metal easy enough, they’ve bought a basic photo album for Erik to embellish and Peter’s taken it upon himself to direct Erik’s shaping and ornate designs. He’s also been writing in the book on the inside cover about how much he loves his daddy. Erik is carefully supervising the draft of that that Peter is writing on a notebook.

Raven takes the present away once they’ve wrapped it. Peter seems very smug and Erik tries not to feel nervous when he catches him and Raven giggling and muttering. Charles shrugs, keeping up his promise to not look in either of their minds. Erik feels marginally relieved when he catches Peter talking to Logan about breakfast as he walks by.

Erik wakes up to a soft knocking and laughs when the door speeds shut, which means Peter was checking if they were awake.

“Come in.” Charles seems to be enjoying whatever’s about to happen and Peter throws the door open grinning, Hank holding a tray that has breakfast on it.

When the tray’s are placed in front of both Charles and Erik they can see by the burnt pancakes in the middle of the stack Logan let Peter take over, judging that it’s only one pancake it didn’t last long.

Peter and Hank leave with the promise of presents after and the assurance that there will be no accident today. Hank sullenly agrees explaining how he’s out of the lab, he needs more materials for some experiment anyways.

Okay so let’s give your Papa his gift first.” Charles is grinning at the box Peter had decided to put the vase they’d made in. there’s coils of the nicest metal that Charles could get his hand on, although he did run it by Hank who seemed impressed with the lack of alloy’s involved. Erik grins, reaching for the metal and letting it hover and float around him in an almost liquid form.

“You get to help too Papa, see! There’s a spot on the vase for you to put the metal!!” Peter grins and Erik’s face softens.

“Thank you Peter, I love it, very thoughtful.” Peter watches as Erik pushes some of the metal into the groves, watching as it flows and sinks into all the groves and rivets that he’d formed with Charles.

Charles grins when Peter pushes the gift bag towards him. Erik’s excited as well, despite supervising the writing Peter had done on the inside Erik isn’t actually sure what it says. He knows he’ll read it after Charles but the warmth Charles can’t help projecting onto him and Peter.

“Thank you Peter.” Charles grins but looks concerned when Peter looks suddenly panicked and pulls both him and Erik closer.

“What about Logan and Hank…”

“They’re your uncles; we can get them something for family day.” Erik cuts in the building panic from Peter and lets the different colours flicker in the metal on the vase to distract him.

“And now for your present.”

“But I’m not a dad!” Peter looks concerned and Charles laughs nodding.

“You’re not, but you are our son, and we wanted to get you something nice.” Peter examines the shoebox from every side and carefully peels the tape from the sides and folds the wrapping paper.

“Whoa!!!!” the tissue paper is thrown to the side and Peter holds up one of the silver roller skates grinning.

“Now until you know how to skate you can’t use them with your powers…” Charles amends and Peter jerks his head excitement on his face.

“I can use this with my powers??!!!”

Erik just turns his horrified expression to Charles who looks sheepish.

“I didn’t think he would’ve not used them on his own…”

“This is the best father’s day ever!!!” Peter grins throwing his arms around both his dads, momentarily stopping the horror at Peter using his speed with his new gift.

“Next year we’re just getting him glitter.” They can hear Hank’s annoyed scream from across the mansion.

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BD: Father’s Day

https://statticscribbles.tumblr.com/post/639099629845233664/masterlist

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2018 in Science

from Wikipedia 

Some highlights:

1 January – Researchers at Harvard, writing in Nature Nanotechnology, report the first single lens that can focus all colours of the rainbow in the same spot and in high resolution, previously only achievable with multiple lenses.

2 January – Physicists at Cornell University report the creation of "muscle" for shape-changing, cell-sized robots.

3 January  – Scientists in Rome unveil the first bionic hand with a sense of touch that can be worn outside a laboratory.

9 January  – A pattern in exoplanets is discovered by a team of multinational researchers led by the Université de Montréal: Planets orbiting the same star tend to have similar sizes and regular spacings. This could imply that most planetary systems form differently from the Solar System.

10 January – Researchers at Imperial College London and King's College London publish a paper in the journal Scientific Reports about the development of a new 3D bioprinting technique, which allows the more accurate printing of soft tissue organs, such as lungs. 15 January –  University of Washington scientists publish a report in the journal Nature Chemistry of the development of a new form of biomaterial based delivery system for therapeutic drugs, which only release their cargo under certain physiological conditions, thereby potentially reducing drug side-effects in patients.

17 January – Engineers at the University of Texas at Austin, in collaboration with Peking University scientists, announce the creation of a memory storage device only one atomic layer thick; a so-called 'atomristor'.

19 January – Researchers at the Technical University of Munich report a new propulsion method for molecular machines, which enables them to move 100,000 times faster than biochemical processes used to date.

22 January –  Engineers at MIT develop a new computer chip, with "artificial synapses," which process information more like neurons in a brain.

24 January – Scientists in China report in the journal Cell the creation of two monkey clones, named Zhong Zhong and Hua Hua, using the complex DNA transfer method that produced Dolly the sheep, for the first time.

25 January –  Researchers report evidence that modern humans migrated from Africa at least as early as 194,000 years ago, somewhat consistent with recent genetic studies, and much earlier than previously thought.

Scientists working for Calico, a company owned by Alphabet, publish a paper in the journal eLife which presents possible evidence that Heterocephalus glaber (naked mole-rat) do not face increased mortality risk due to aging.

29 January – Scientists report, for the first time, that 800 million viruses, mainly of marine origin, are deposited daily from the Earth's atmosphere onto every square meter of the planet's surface, as the result of a global atmospheric stream of viruses, circulating above the weather system, but below the altitude of usual airline travel, distributing viruses around the planet.

6 February  –  The National Snow and Ice Data Center (NSIDC) reports that global sea ice extent has fallen to a new record low. 9 February – Human eggs are grown in the laboratory for the first time, by researchers at the University of Edinburgh.

14 February  – Researchers found that blocking the enzyme beta-secretase (BACE1) in mice reduces formation of plaques responsible for Alzheimer's disease.

16 February – Scientists report, for the first time, the discovery of a new form of light, which may involve polaritons, that could be useful in the development of quantum computers.

19 February – Scientists identify traces of the genes of the indigenous Taíno people in modern-day Puerto Ricans, indicating that the ethnic group was not extinct as previously believed.

28 February – Astronomers report, for the first time, a signal of the reionization epoch, an indirect detection of light from the earliest stars formed – about 180 million years after the Big Bang.

9 March – NASA medical researchers report that human spaceflight may alter gene expression in astronauts, based on twin studies where one astronaut twin, Scott Kelly, spent nearly one year in space while the other, Mark Kelly, remained on Earth.

19 March – Uber suspends all of its self-driving cars worldwide after a woman is killed by one of the vehicles in Arizona. This is the first recorded fatality using a fully automated version of the technology.

18 April  –  Nanyang Technological University demonstrates a robot that can autonomously assemble an IKEA chair without interruption.

25 April   –  Scientists publish evidence that asteroids may have been primarily responsible for bringing water to Earth.

27 April – Stephen Hawking's final paper – A smooth exit from eternal inflation? – is published in the Journal of High Energy Physics.

30 April – Researchers report identifying 6,331 groups of genes that are common to all living animals, and which may have arisen from a single common ancestor that lived 650 million years ago in the Precambrian.

10 May – NASA's Carbon Monitoring System (CMS) is cancelled by the Trump administration.

17 May – Scientists warn that banned CFC-11 gas emissions are originating from an unknown source somewhere in East Asia, with potential to damage the ozone layer.

22 May –  Scientists from Purdue University and the Chinese Academy of Sciences report the use of CRISPR/Cas9 to develop a variety of rice producing 25-31% more grain than traditional breeding methods.

24 May  –  Researchers at the University of Leeds report that climate change could increase arable land in boreal regions by 44% by the year 2100, while having a negative impact everywhere else.

30 May  –  The first 3D printed human corneas are created at Newcastle University.  The FDA approves the first artificial iris.

Physicists of the MiniBooNE experiment report a stronger neutrino oscillation signal than expected, a possible hint of sterile neutrinos, an elusive particle that may pass through matter without any interaction whatsoever.

4 June – Direct coupling of the Higgs boson with the top quark is observed for the first time by the ATLAS experiment and the CMS experiment at CERN.

6 June –  Footprints in the Yangtze Gorges area of South China, dating back 546 million years, are reported to be the earliest known record of an animal with legs.

8 June – The U.S. Department of Energy’s Oak Ridge National Laboratory unveils Summit as the world’s most powerful supercomputer, with a peak performance of 200,000 trillion calculations per second, or 200 petaflops.

20 June  – Gene-edited pigs are made resistant to porcine reproductive and respiratory syndrome, one of the world's most costly animal diseases.

2 July  –  First confirmed image of a newborn planet, exoplanet PDS 70b, several times larger than the planet Jupiter.

11 July – Scientists report the discovery in China of the oldest stone tools outside of Africa, estimated at 2.12 million years old.

12 July – The IceCube Neutrino Observatory announces that they have traced a neutrino that hit their Antarctica-based research station in September 2017 back to its point of origin in a blazar 3.7 billion light-years away. This is the first time that a neutrino detector has been used to locate an object in space.

Using NASA's Hubble and ESA's Gaia, astronomers make the most precise measurements to date of the universe's expansion rate – a figure of 73.5 km (45.6 miles) per second per megaparsec – reducing the uncertainty to just 2.2 percent.

17 July – Scientists led by Scott S. Sheppard report the discovery of 12 new moons of Jupiter, taking its total number to 79. This includes an "oddball", Valetudo (originally known as S/2016 J 2; Roman-numeral designation Jupiter LXII), that is predicted to eventually collide with a neighbouring moon.

20 July – Scientists at the University of Alabama at Birmingham announce the reversal of aging-associated skin wrinkles and hair loss in a mouse model. 25 July –  Scientists report the discovery, based on MARSIS radar studies, of a subglacial lake on Mars, 1.5 km (0.93 mi) below the southern polar ice cap (see image), and extending sideways about 20 km (12 mi), the first known stable body of water on the planet.

27 July – The longest total lunar eclipse of the 21st century occurs.

30 July –  Using high-resolution satellite images, researchers from the Chizé Centre for Biological Studies report an 88% reduction in the world's biggest colony of king penguins, found on Île aux Cochons in the subantarctic Crozet Archipelago.

A study by NASA's Goddard Space Flight Center concludes that terraforming of Mars is physically impossible with present-day technology.

1 August  –  Lab-grown lungs are successfully transplanted into pigs for the first time.

16 August  –  Scientists at Sandia National Laboratories reveal a platinum-gold alloy believed to be the most wear-resistant metal in the world, 100 times more durable than high-strength steel.

16 August  – First complete map of the wheat genome.

18 August – Research presented at the Goldschmidt conference in Boston concludes that water is likely to be a common feature of exoplanets between two and four times the size of Earth, with implications for the search of life in our Galaxy.

20 August –  Scientists report that life, based on genetic and fossil evidences, may have begun on Earth nearly 4.5 billion years ago, much earlier than thought before.

22 August   –  Scientists report evidence of a 13 year-old hominin female, nicknamed Denny, estimated to have lived 90,000 years ago, and who was determined to be half Neanderthal and half Denisovan, based on genetic analysis of a bone fragment discovered in Denisova Cave; the first time an ancient individual was discovered whose parents belonged to distinct human groups.

Researchers report evidence of rapid shifts (in geological-time terms), nearly 30 times faster than known previously, of geomagnetic reversals, where the north magnetic pole of Earth becomes the south magnetic pole and vice versa, including a chronozone that lasted only 200 years, much shorter than any other such reversal found earlier.

30 August – Researchers from the Chinese University of Hong Kong report a new way of controlling nanobots, using swarm behaviours to do complex tasks in minimally invasive surgeries.

6 September – A study by the University of Illinois at Urbana-Champaign finds that large-scale solar panels and wind turbines in the Sahara desert would have a major impact on rainfall, vegetation and temperatures – potentially greening the region.

12 September – Scientists report the discovery of the earliest known drawing by Homo sapiens, which is estimated to be 73,000 years old, much earlier than the 43,000 years old artifacts understood to be the earliest known modern human drawings found previously.

20 September – Scientists discover molecules of fat in an ancient fossil to reveal the earliest confirmed animal in the geological record that lived on Earth 558 million years ago.

A paper in the Cryosphere journal, from the European Geosciences Union, suggests that building walls on the seafloor could halt the slide of undersea glaciers, which are melting due to warmer ocean temperatures.

Using data from the European Space Agency’s X-ray observatory XMM-Newton, astronomers report the first detection of matter falling into a black hole at 30% of the speed of light, located in the centre of the billion-light year distant galaxy PG211+143.

25 September  – Scientists determine that Vorombe titan, an extinct elephant bird from the island of Madagascar which reached weights of 800 kg (1,800 lb) and heights of 3 m (9.8 ft) tall, is the largest bird known to have existed.

26 September – Researchers provide evidence that phosphorus compounds, key components for life, are made in interstellar space and distributed throughout outer space, including the early Earth.

27 September – A study in the journal Science concludes that polychlorinated biphenyls (PCBs) could halve killer whale populations in the most heavily contaminated areas within 30–50 years. 1 October –  NASA-funded researchers find that lengthy journeys into outer space, including travel to the planet Mars, may substantially damage the gastrointestinal tissues of astronauts. The studies support earlier work that found such journeys could significantly damage the brains of astronauts, and age them prematurely. However, unlike the conditions in space, the study admitted the full radiation doses over short periods.

Astronomers announce the discovery of 2015 TG387 (also known as "The Goblin"), a trans-Neptunian object and sednoid in the outermost part of the Solar System, which may help explain some apparent effects of a hypothetical planet named Planet Nine (or Planet X).

11 October   –  Physicists report that quantum behavior can be explained with classical physics for a single particle, but not for multiple particles as in quantum entanglement and related nonlocality phenomena ("spooky action at a distance" ["gruselige Action in einiger Entfernung" (german)], according to Albert Einstein).

Harvard astronomers present an analytical model that suggests matter—and potentially dormant spores—can be exchanged across the vast distances between galaxies, a process termed 'galactic panspermia', and not be restricted to the limited scale of solar systems.

The world's fastest camera, able to capture 10 trillion frames per second, is announced by the Institut national de la recherche scientifique (INRS) in Quebec, Canada.

15 October – A study by the Rensselaer Polytechnic Institute finds that insect populations in Puerto Rico have crashed since the 1970s, with some species witnessing a 60-fold decrease in numbers. The fall is attributed to a 2.0 °C rise in tropical forest temperatures.

16 October   –  A comprehensive analysis of demographic trends published in The Lancet predicts that all countries are likely to experience at least a slight increase in life expectancy by 2040. Spain is expected to overtake Japan as it rises from fourth to first place, with an average lifespan of 85.8 years.

Astronomers report that GRB 150101B, a gamma-ray burst event detected in 2015, may be directly related to the historic GW170817, a gravitational wave event detected in 2017, and associated with the merger of two neutron stars. The similarities between the two events, in terms of gamma ray, optical and x-ray emissions, as well as to the nature of the associated host galaxies, are "striking", suggesting the two separate events may both be the result of the merger of neutron stars, and both may be a kilonova (i.e., a luminous flash of radioactive light that produces elements like silver, gold, platinum and uranium), which may be more common in the universe than previously understood, according to the researchers.

17 October –  Researchers report possible transgenerational epigenetic inheritance (i.e., transmission of information from one generation of an organism to the next that affects the traits of offspring without alteration of the primary structure of DNA) in the form of paternal transmission of epigenetic memory via of sperm chromosomes in the roundworm Caenorhabditis elegans, a laboratory test organism.

24 October – Scientists report discovering the oldest weapons found in North America, ancient spear points, dated to 13,500 – 15,500 years ago, made of chert, predating the clovis culture (typically dated to 13,000 years ago), in the state of Texas.

1 November  – The Earth BioGenome Project is launched, a 10-year global effort to sequence the genomes of all 1.5 million known animal, plant, protozoan and fungal species on Earth. Astronomers from Harvard University suggest that the interstellar object 'Oumuamua may be an extraterrestrial solar sail from an alien civilization, in an effort to help explain the object's "peculiar acceleration".

2 November  – The world’s largest neuromorphic supercomputer, the million-core 'SpiNNaker' machine, is switched on by the University of Manchester, England.

5 November  –  Polar ozone holes are healing faster than previously thought, and are expected to completely heal by 2060.

5 November –  Astronomers report the discovery of one of the oldest stars, named 2MASS J18082002-5104378 B, in the universe, about 13.5 billion-years-old, possibly one of the very first stars, a tiny ultra metal-poor (UMP) star made almost entirely of materials released from the Big Bang. The discovery of the star in the Milky Way galaxy suggests that the galaxy may be at least 3 billion years older than thought earlier.

Scientists report the discovery of the smallest known ape, Simiolus minutus, which weighed approximately eight pounds, and lived about 12.5 million years ago in Kenya in East Africa.

7 November – Scientists report the discovery of the oldest known figurative art painting, over 40,000 (perhaps as old as 52,000) years old, of an unknown animal, in the cave of Lubang Jeriji Saléh on the Indonesian island of Borneo

12 November – China's Institute of Plasma Physics announces that plasma in the Experimental Advanced Superconducting Tokamak (EAST) has reached 100 million degrees Celsius.

Researchers at Japan's National Institute of Advanced Industrial Science and Technology (AIST) reveal a humanoid robot prototype, HRP-5P, intended to autonomously perform heavy labor or work in hazardous environments.

20 November – The World Meteorological Organization (WMO) publishes its latest Greenhouse Gas Bulletin, showing record high concentrations of heat-trapping greenhouse gases, with levels of carbon dioxide (CO2) reaching 405.5 parts per million (ppm) in 2017, up from 403.3 ppm in 2016 and 400.1 ppm in 2015. The WMO reports that "there is no sign of a reversal in this trend, which is driving long-term climate change, sea level rise, ocean acidification and more extreme weather."

22 November  – Research published in Environmental Research Letters concludes that stratospheric aerosol injection to curb global warming is "technically possible" and would be "remarkably inexpensive" at $2 to 2.5 billion per year over the first 15 years.

23 November – The Brazilian government reports that deforestation in the Amazon rainforest has reached its highest rate for a decade, with 7,900 sq km (3,050 sq miles) destroyed between August 2017 and July 2018, largely due to illegal logging.

24 November – Scientists report that nearly all extant populations of animals, including humans, may be a result of a population expansion that began between one and two hundred thousand years ago, based on genetic mitochondrial DNA studies.

25 November – Chinese scientists report the birth of twin human girls, Lulu and Nana, as the world's first genetically edited babies. The human genes were edited to resist the HIV virus.

27 November – Researchers at the University of Southern California publish details of a freeze-dried polio vaccine that does not require refrigeration.

30 November – Astronomers report that the extragalactic background light (EBL), the total amount of light that has ever been released by all the stars in the observable universe, amounts to 4 × 1084 photons.

10 December – Voyager 2, a space probe launched in 1977, is confirmed (image of onboard detections) to have left the Solar System for interstellar space on 5 November 2018, six years after its sister probe, Voyager 1.

Four glaciers in the Vincennes Bay region of Antarctica are found to be thinning at surprisingly fast rates, casting doubt on the idea that the eastern part of the icy continent is stable.

Researchers announce the discovery of considerable amounts of life forms, including 70% of bacteria and archea on Earth, comprising up to 23 billion tonnes of carbon, living up to at least 4.8 km (3.0 mi) deep underground, including 2.5 km (1.6 mi) below the seabed, according to a ten-year Deep Carbon Observatory project.

11 December – A report on the impact of climate change in the Arctic, published during the latest American Geophysical Union meeting, concludes that populations of wild reindeer, or caribou, have crashed from almost 5 million to just 2.1 million animals in the last two decades.

17 December  –  Astronomers led by Scott Sheppard announce the discovery of 2018 VG18, nicknamed "Farout", the most distant body ever observed in the Solar System at approximately 120 AU.

Scientists announce that the earliest feathers may have originated 250 million years ago, 70 million years earlier than previously thought

18 December – Scientists report that the earliest flowers began about 180 million years ago, 50 million years earlier than previously thought.

and more

The Hazardous Environment Suit or HEV is a semi-powered protective suit designed to maximize the wearer’s survivability against a multitude of dangerous scenarios. At the most basic level, the HEV provides protection against radiation, corrosive or toxic chemicals, biological contaminants, blunt force trauma, lacerations, and even gunfire. It also includes an on-board computer  to monitor the user’s vitals, apply morphine or anti-toxins through an internal injection system and keeps track of external equipment and munitions.

The semi-powered nature of the HEV consists of electrically stimulated polymer bundles located in the upper arms and upper legs of the suit. While these do not provide a truly fantastic increase in strength they do allow the user to lift relatively heavy objects like steel barrels and large wooden crates with ease. As well as enabling the user to carry heavier equipment for longer periods of time. More than that, they afford the wearer greater general stamina by assisting movement and locomotion.

For personal protection, the HEV suit has multiple layers with differing functions and consistencies. These include radiation shielding, flame and corrosive resistant materials and an on-board supply of morphine and anti-toxins. The first and strongest layer of defense is the high-impact reactive armor plating concentrated on the upper torso, upper and lower arms and legs. The armor is a shape memory alloy that uses suit power to harden in response to increased levels of impact severity. The HEV is largely impervious to pistol and PDW caliber bullets, resistant to intermediate and rifle cartridges but vulnerable to anything larger.

Of course these enhancements are dependent on the suit remaining sufficiently charged. Black Mesa developed wall mounted charging stations as well as single-use power cells. The Mark V suit, a remodeled and repaired Mark IV, has been adapted to tap into Combine energy sources. The suit can still be worn and used with zero power, but given the weight of its various materials and systems it would exhaust the user over the course of a few hours.

Gordon’s Mark IV lacked a helmet, as it had been requisitioned by the top secret Lambda Sector of Black Mesa who had been losing HEV suits at an alarming rate during their expeditions to Xen. Gordon utilized his improvisational skills and managed to adapt his pair of glasses into electronically displaying the HEV’s heads-up display onto the lenses. The HEV suit Isaac Kleiner and the Resistance managed to acquire is presumably the same suit Gordon used during the Black Mesa Incident, anonymously provided to the Resistance by Gordon’s “employer.” It is still lacking a proper helmet, much to Gordon’s chagrin.

Fishing in the dark means

#FISHING IN THE DARK MEANS ZIP#

And for some die-hard night fishermen, it means fishing in complete darkness, using only the light of the moon and stars to guide their way. For others, it means fishing in waters where you can’t see the bottom. Mark: So how was Cassandra Bill: It was great we started off fishing in the dark and by the end of the night I was getting some mud on my tires. For some, it simply means fishing after sunset. What does 'fishing in the dark' mean laying on your back outside at night performing mutual masturbation with your partner. These example sentences are selected automatically from various online news sources to reflect current usage of the word 'fishing.' Views expressed in the examples do not represent the opinion of Merriam-Webster or its editors. Fishing in the dark can mean different things to different anglers. New York Times, 14 June 2022 The accompanying footage, captured by Rachel Gillis, shows the shark tethered to a coral head by fishing line, with the hook attached to a steel leader in its mouth. Josh Cradduck, NBC News, 25 July 2022 Piano strings are manipulated with fishing line for a metallic whine bowing a vibraphone while a tubular bell is gently struck ends up sounding like how a shiver feels. The standard setup is usually 20- to 25-pound test line and a 4- to 8-foot leader. And again, you two, writing a fishing song. Try to avoid fishing during nighttime or in dark areas, since this may lower the chance of getting fish or items. It was certified Platinum by the However, there is also another interpretation related to this dream. Maureen Lee Lenker, EW.com, 26 July 2022 The victim was with two others last Tuesday when an angler on board caught the sailfish on a fishing line about two miles offshore near Stuart, Florida, the Martin County Sheriff’s Office said. Trolling is a great way to catch sockeye, kokanee or other salmon in lakes, but it’s also a technique used to catch anadromous salmon, especially in large rivers. You could argue it’s been going on for longer with international political strife and domestic violence here stateside. 2022 Pieces can even be fastened to a fishing line to assist!

#FISHING IN THE DARK MEANS ZIP#

2022 Now, pick up some command hooks, fishing line, double-sided tape, zip ties or your hot glue gun and get to work!Īlyssa Gautieri, Good Housekeeping, 19 Aug. So baby get ready, because we’re going Fishin’ in the Dark. Megan Boettcher, Better Homes & Gardens, 27 Aug. 2022 Hang your ghosts with fishing line from the porch ceiling. 2022 Some Native Alaskans are wary of further encroachment into their traditional hunting and fishing grounds, but the decline of wild plants and animals has made agriculture a necessary supplement to subsistence diets. Jennifer Ouellette, Ars Technica, 30 Aug. Recent Examples on the Web For instance, most artificial muscles are designed to respond to electric fields (such as electroactive polymers), changes in temperature (such as shape-memory alloys and fishing line), and changes in air pressure via pneumatics.

“Shape Memory Alloys  Market ”gives detailed outlook by Type, by Application, by Segmentation and Regional Forecasts.

4me4you visits Pilars Corrias Gallery which featured the artist Peppi Bottrop - “Jungle Rapture”.

Described as “the manic cartography of an urban flaneur”, Bottrop’s compositions may resemble the frayed infrastructure and overlapping freeway feeders of the Ruhr area. But they also brim with alternative routes, some of which border the realm of science fiction, where concepts of time and existence have long become fluid. Over the past few years, the artist’s characteristic choppy dashes have become more fluid, almost arabesque. Imbued with a sense of indispensability, they evoke the romantic idea of an innate drive that turns the subject into an art-producing animal, placing the work of art in direct analogy to the product of nature. As if fuelled by remnants of the fossil energy inherent in his brittle trademark medium, Bottrop’s charcoal marks proliferate and overgrow other elements in the composition

The compositions are permeated by unusual amounts of metallic surfaces and brushstrokes—results of the painter’s lush use of powdered aluminium. His rusty red grids are blanketed by their glossy opposite: expanses of shiny silver, organic in shape and alive with reflections, as if to counter the old dichotomies of nature and culture, man, and machine. The fleeting memory of an alloy-rimmed joyride fades into the background, where it blends with the silver of the gallery walls. Consciously or not, Bottrop has us mesmerised in the belly of a huge machine, a vessel of sorts, turning his canvases into windows out onto unknown terrain, where remnants of our industrial past are churned up by natural powers, entangled in a most intriguing symbiosis.