Global Distribution Management System Market Huge Demand, Trends, Scope, Opportunity by 2032

Overview of the DMS Market:

The DMS market has been growing steadily over the years, driven by the need for efficient and optimized distribution processes in various industries. The market encompasses software solutions and services that help organizations manage and enhance their distribution operations, supply chain management, and logistics processes.

Advanced Distribution Management System Market Size Worth $9.69 Billion By 2030 | CAGR: 20.1% ·

Latest technological developments, opportunities, demand, and trends in the Global Distribution Management System (DMS) Market:

Latest Technological Developments:

Advanced Data Analytics and AI: Distribution Management Systems are incorporating advanced data analytics and artificial intelligence (AI) to process vast amounts of data generated by smart grids. AI algorithms enable predictive analytics, anomaly detection, and optimization of grid operations.

Integration with IoT and Sensors: The integration of IoT devices and sensors enables real-time data collection from various points within the distribution grid. This data is used for monitoring equipment health, load balancing, fault detection, and predictive maintenance.

Edge Computing: Edge computing is being applied in DMS to process data locally, reducing latency and enabling faster decision-making. This is particularly important for real-time applications, such as fault detection and grid optimization.

Digital Twin Technology: Digital twin technology creates virtual models of the distribution grid, allowing operators to simulate scenarios, test new configurations, and optimize grid operations without disrupting the actual system.

Visualization and User Interfaces: User-friendly and intuitive visualization interfaces are being developed to provide operators with real-time insights into the distribution grid's performance, enabling efficient decision-making.

Opportunities:

Grid Modernization: The shift toward smarter and more efficient power distribution systems presents a significant opportunity for DMS solutions. Utilities and energy companies are looking to modernize their grid infrastructure to accommodate distributed energy resources, electric vehicles, and smart technologies.

Renewable Energy Integration: As renewable energy sources grow in adoption, DMS solutions play a crucial role in managing the integration of intermittent resources into the grid, ensuring stability and reliability.

Energy Efficiency: DMS solutions provide tools for optimizing energy distribution, reducing energy losses, and improving overall grid efficiency. These capabilities align with energy efficiency goals and regulations.

Resilience and Grid Reliability: DMS systems enhance grid resilience by enabling quicker fault detection and restoration. As extreme weather events become more frequent, there's a growing need for resilient grid management.

Microgrid Integration: The integration of microgrids with the main distribution system requires advanced control and coordination, which DMS solutions can provide. Microgrids enhance energy resilience and localized power generation.

Demand and Trends:

Smart Grid Implementation: The demand for DMS is driven by the growing adoption of smart grid technologies. Utilities are looking for comprehensive solutions that can effectively manage the complexity of modern grid operations.

Regulatory Compliance: Regulatory requirements related to grid efficiency, renewable energy integration, and reliability are pushing utilities to invest in DMS solutions to meet these standards.

Data-Driven Decision-Making: The trend is shifting towards data-driven decision-making in grid management. DMS solutions provide real-time data and analytics that empower operators to make informed choices for grid optimization and fault management.

Cloud-Based Solutions: The trend towards cloud computing is also influencing DMS deployments. Cloud-based DMS solutions offer scalability, flexibility, and easier integration with other digital tools.

Cybersecurity Focus: With increased digitalization, cybersecurity is a critical trend. DMS solutions are incorporating robust cybersecurity measures to protect the grid from cyber threats.

Workforce Automation: DMS solutions are incorporating automation and predictive maintenance features, reducing the manual workload for grid operators and enabling proactive maintenance.

The Global Distribution Management System market is evolving rapidly due to technological advancements, changing energy landscapes, and the need for efficient grid management. These trends and opportunities are reshaping the way utilities and energy companies manage and optimize their distribution networks.

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Market Segmentations:

Global Distribution Management System Market: By Company

• ABB

• General Electric

• Schneider Electric

• Siemens

• Oracle

• Indra Sistemas

• Survalent Technology

• Advanced Control Systems

Global Distribution Management System Market: By Type

• Hardware

• Software

• Service

Global Distribution Management System Market: By Application

• Industrial

• Commercial

• Residential

Global Distribution Management System Market: Regional Analysis

The regional analysis of the global Distribution Management System market provides insights into the market's performance across different regions of the world. The analysis is based on recent and future trends and includes market forecast for the prediction period. The countries covered in the regional analysis of the Distribution Management System market report are as follows:

North America: The North America region includes the U.S., Canada, and Mexico. The U.S. is the largest market for Distribution Management System in this region, followed by Canada and Mexico. The market growth in this region is primarily driven by the presence of key market players and the increasing demand for the product.

Europe: The Europe region includes Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe. Germany is the largest market for Distribution Management System in this region, followed by the U.K. and France. The market growth in this region is driven by the increasing demand for the product in the automotive and aerospace sectors.

Asia-Pacific: The Asia-Pacific region includes Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, and Rest of Asia-Pacific. China is the largest market for Distribution Management System in this region, followed by Japan and India. The market growth in this region is driven by the increasing adoption of the product in various end-use industries, such as automotive, aerospace, and construction.

Middle East and Africa: The Middle East and Africa region includes Saudi Arabia, U.A.E, South Africa, Egypt, Israel, and Rest of Middle East and Africa. The market growth in this region is driven by the increasing demand for the product in the aerospace and defense sectors.

South America: The South America region includes Argentina, Brazil, and Rest of South America. Brazil is the largest market for Distribution Management System in this region, followed by Argentina. The market growth in this region is primarily driven by the increasing demand for the product in the automotive sector.

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Reaching New Heights: The Strategic Advantages of Content Syndication in B2B

Introduction

In the dynamic landscape of B2B industries, where digital marketing strategies are constantly evolving, content syndication services have emerged as a potent tool for amplifying reach and impact. As businesses strive to connect with their target audience and establish themselves as industry leaders, the role of content syndication services cannot be understated. This blog delves into the world of content syndication services, exploring their benefits, working mechanisms, and how they can revolutionize your B2B marketing efforts.

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Content syndication services empower businesses to transcend the boundaries of their own platforms and tap into an extensive network of partner websites, industry portals, and social media channels. This strategic distribution process enables your well-crafted content – be it articles, whitepapers, videos, or infographics – to be showcased on diverse platforms, reaching a broader and more targeted audience than you could achieve through standalone efforts.

 Unveiling the Benefits

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By leveraging content syndication services, B2B enterprises unlock the potential to connect with a much wider audience than their existing platforms could accommodate. Your content gains exposure on websites and channels that cater to different segments of your target market, increasing the likelihood of engaging decision-makers, stakeholders, and potential clients who may not have encountered your content otherwise.

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Standing out in the competitive B2B landscape demands strategic visibility. Content syndication services elevate your brand's visibility by positioning your content across reputable platforms, where it can be discovered by industry professionals actively seeking valuable insights. As your content gains recognition, your brand establishes itself as a thought leader, bolstering credibility and fostering trust.

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In the B2B arena, lead generation is the lifeblood of growth. Content syndication services offer a powerful avenue for lead generation by capturing contact information from interested readers. When your content resonates with your audience, they are more likely to provide their details in exchange for additional resources, opening the door for personalized engagement and conversion opportunities.

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The strategic distribution of your content across a network of platforms often includes backlinks to your original content or website. These backlinks are recognized by search engines as indicators of credibility and relevance, contributing to improved search engine optimization. As your content gains backlinks, your website's search rankings receive a boost, making it more discoverable by organic traffic.

 5. Authority and Credibility

In the B2B realm, trust is paramount. Content syndication services enable you to showcase your expertise on various platforms, positioning your brand as an industry authority. This resonates with decision-makers and stakeholders seeking reliable sources of information and solutions, further enhancing your brand's credibility.

 6. Cost-Effective Strategy

Content creation demands time, effort, and resources. Content syndication services provide a cost-effective strategy by repurposing your existing high-quality content. Instead of reinventing the wheel, you share valuable resources across a broader spectrum of platforms, optimizing your content's reach without an extensive investment.

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The digital age thrives on social engagement. Syndicated content tends to generate increased social activity – likes, shares, comments, and retweets – which not only expands your reach but also nurtures meaningful conversations around your content. This engagement translates to higher visibility and brand recognition.

 8. Targeted Distribution

Precise targeting is the cornerstone of effective marketing. Content syndication services allow you to specify the demographics, industries, and job roles you want to reach. This ensures that your content reaches the most relevant audience, increasing the likelihood of attracting qualified leads and decision-makers.

 9. Shortened Sales Cycle

Educated leads are more likely to convert quickly. Syndicated content educates potential clients, addressing pain points and providing valuable insights. As your audience becomes more informed, they approach your sales team with a deeper understanding, potentially shortening the sales cycle.

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Content syndication services often provide robust analytics tools that offer insights into content performance across various channels. These data-driven insights empower you to refine your content strategy, adapt your messaging, and optimize distribution efforts for better results.

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Conclusion

Content syndication services have emerged as a game-changer in B2B industries, empowering businesses to magnify their reach, enhance brand impact, and establish authority. By capitalizing on the manifold benefits these services offer, B2B enterprises can unlock the full potential of their content, driving lead generation, credibility, and accelerated growth. As the digital landscape continues to evolve, content syndication services stand as a steadfast pillar in the modern B2B marketer's toolkit.

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Sr.Digital Marketink Associate

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Planets in Houses Areas of Interest in Astrology

In my studies, I have encountered an extremely detailed and accurate list coming from classic Vedic text, representing what will concern each planet in a given house.

Note, that certain planets perform fundamentally better in certain houses, but the general state of the house affairs will depend on the condition and aspects of the planet. I will give an example of how to interpret a planet below the list.

Note, that Rahu and Ketu are missing, because their results are calculated according to their dispositor.

Sun

1st House Sun Body, Personality, Health

2nd House Sun Intelligence about Maintaining Wealth

3rd House Sun Intelligent Use and Consistency of Skills

4th House Sun Palaces, One's Kingdom

5th House Sun Leadership, Nobility, Esteem

6th House Sun Government Services

7th House Sun Egotism of Spouse or Partner, Partner's Consistency

8th House Sun Vitality, Energy Levels

9th House Sun Father

10th House Sun Government, Activity, Status, Power, Father's Influence

11th House Sun Titles, Certificates

12th House Sun Temples, Places of Worship

Moon

1st House Moon Body, Ego

2nd House Moon Face, Sense Organs, Contentment

3rd House Moon Music, Rhythmic Ability

4th House Moon Mother, Foundation of Feelings

5th House Moon Imagination, Ability to Improve One's Consciousness

6th House Moon Development of Body, Physical Maturation

7th House Moon Popularity, Public Relations

8th House Moon Change, Adaptability

9th House Moon Father's Popularity and Character

10th House Moon Popularity

11th House Moon Popularity in Groups or Organizations

12th House Moon Dreams, Inner Worlds

Mars

1st House Mars Character, Sense of Right and Wrong

2nd House Mars Mineral Wealth

3rd House Mars Siblings, Peers, Bravery, Training

4th House Mars Land, Houses, Property, Mother

5th House Mars Convictions, Strength of Opinions

6th House Mars Accidents, Overcoming Enemies, Weapons

7th House Mars Challenges in Relationships

8th House Mars Surgery, Battles, War

9th House Mars Brother and Sister in Law, Moral Code

10th House Mars Command, Overseers

11th House Mars Character and Motivation of Group Dynamics

12th House Mars Results of Enemies Actions, Secret Enemies

Mercury

1st House Mercury Senses, Ability to Cognize Experiences

2nd House Mercury Speech, Friends

3rd House Mercury Travel, Discernment, Crafts, Communications, Games

4th House Mercury Relatives

5th House Mercury Speculative Investments, Mantra Practice

6th House Mercury Maternal Aunts and Uncles, Legal Matters

7th House Mercury Business Partners, Commerce and Trade

8th House Mercury Corporations, Occult Knowledge, Past Life Fortune

9th House Mercury Past Life Fortune, Judges, Codes of Conduct

10th House Mercury Employer, Apprenticeship, Capacity to Manage

11th House Mercury Playing the Game of Success

12th House Mercury Long Term Investments, Contemplative Knowledge, Purchasing Expenses, Gain of Lost Items

Jupiter

1st House Jupiter Optimism, Opportunities

2nd House Jupiter Wealth

3rd House Jupiter Spiritual Art, Written Wisdom

4th House Jupiter Happiness, Banks, Fruit Bearing Groves

5th House Jupiter Children, Father's Grandfather, Knowledge and Learning

6th House Jupiter Forgiveness

7th House Jupiter Husband, Wealth Partner Brings

8th House Jupiter Inheritance

9th House Jupiter Guru, Teacher, Ease of Fortune, Grand Children

10th House Jupiter Capacity to Manage

11th House Jupiter Income

12th House Jupiter Mother's Mother, Charity

Venus

1st House Venus Strength, Recuperative Ability

2nd House Venus Food, Jewelry Wealth

3rd House Venus Father in Law

4th House Venus Pools, Lakes, Vehicles

5th House Venus Romance, Affairs, Students

6th House Venus Nursing, Physical Succor

7th House Venus Wife, Mother's Mother

8th House Venus Conjugal Bond, Sex

9th House Venus Father

10th House Venus Mother in Law

11th House Venus Fair Distribution of Wealth

12th House Venus Nursing Homes, Mistress, Mother's Father, Vacations

Saturn

1st House Saturn Ability to Endure Hardship

2nd House Saturn Thriftiness, Wealth from Hard Work, Rock Quarries

3rd House Saturn Servants

4th House Saturn Pets

5th House Saturn Fall from Position

6th House Saturn Overcoming Debts and Diseases

7th House Saturn Appreciation of Relationships, Lack of Empathy

8th House Saturn Chronic Disease, Death, Flaws, Weaknesses, Liabilities

9th House Saturn Delays to Fortune, Delays to Creativity

10th House Saturn Duty

11th House Saturn Elder Siblings, Livestock

12th House Saturn Personal Expense, Loss, Capital Expense, Prisons, Imprisonment

Source for the List - Art and Science of Vedic Astrology Vol 2 Ryan Kurczak & Richard Fish. They themselves used original Vedic Resources for the list, I sourced their material for the sake of Vedic translation.

Interpretation example - I have Saturn in the 4th house and I've always had a good bond with pets since I was a child, they would just appear in my life. It seems natural to me, but in reality many people have allergies, don't own pets, their pets don't survive long, they don't share such a special bond with them or their family situation doesn't allow them one, parents forbid them. Not only did I always have a pet, they were also extremely long lived. As a child, I used to have a hamster that survived 5 years, when the average age of a syrian is up to 3, I had a cat that my mom got but the cat ended up loving me and lived 21 years, and when my cat died, my husband's pup yorkie decided that I'm the love of his life. The pets survive so long, because my Saturn is excellently placed in Aquarius with no bad aspects, so I get to have them and care for them to the point of them reaching the age of physical incontinence. Someone with a difficult, badly aspected Saturn in the 4th would have their own story, but nevertheless the placement would manifest as still having that intimate pet experience in their life.

Another example - I have Venus in the 3rd house and I live with my father in law. I never even met my mother in law, as she has no contact with my husband. Yet people with Venus in the 10th will have her as a prominent figure in their life in some capacity. So this list can show which area of your life will yield a physical manifestation in the first place.

This is how you should superimpose this list onto your chart, checking the individual condition of each planet. Note, that these interpretations are NOT applicable in the Navamsa chart, according to Vedic source.

You can also see from the list, that certain placements produce a particular struggle in one's chart, while other planets produce less problems. I will now make a short list of those troubled placements. Note, that I am not including statements about conditions of given planets, which can turn the mentioned events difficult even for a theoretically good scenario. I am only talking about the houses that give an unquestionable struggle. Interestingly enough, this list differs from the traditional Marana Karaka, and it seems to indicate that even out of most difficult placements, one can build something worthwhile. So I will focus only on placements that bring objective difficulty.

Sun

The Sun has its negative impact in the 7th house, where no matter what it produces egotism from one's spouse or partner. With this position, one basically gets partnerships in life with people that boss them around. But if in a good condition, the partner will be consistent, which I'm interpreting as faithful and committed to the relationship, not looking for outside adventure. So even the worst Sun position has some upside to it. The Sun is hard to mess up.

Moon

Even though traditionally the Moon is feared in the 8th house, here it indicates simply a life full of change and forcing one's ego to adapt, which can actually turn out smooth if the Moon is well placed. The most challenging placement for the Moon is actually the 1st house, where the Moon becomes extremely egoic. From my experience with these natives, it is very true, they struggle to mature and force being the center of attention and their ego blinds them. They are very devoted to their loved ones, but extremely self focused, more than any other 1st house planet on the list. So with Moon in the 1st house you are simply an unquestionable egoist.

Mars

Mars has several gray areas that we will touch on, mostly in Dusthanas. Mars produces results of accidents, weapons and surgeries in the 6th and 8th house, and these are the two most common placements I've seen in charts of doctors. These placements are however not the worst ones, because Mars here has the capacity to do battle where the fight takes it, by joining the army or working with the sick.

The most difficult Mars is in the 12th and 7th house. Mars in the 12th house people grow to always suffer long term from some ailment and that is a result of someone else hurting them. I've seen this in a chart of a person that got injured in their workplace in their mid-life and is still getting surgery for the consequences of it in their old age. More notably, we can see it in the chart of Britney Spears, who has various health issues as a result of accidents through difficult physical work she was forced into by others. This is a placement of physical victimhood from people, who stab the native in the back. My guess is, a strong Mars would endure more, but the event will still happen.

Mars in the 7th house is difficult, because these people always bicker in intimate relationships. They have a karma of constant fights with their partner, as they really try to subliminally achieve domination in a partnership, which is impossible because partnership is about equality and compromise. This placement makes it nigh impossible to achieve marital harmony, unless someone enjoys the fighting, and leads to frequent breakups or one's partner cheating. My mother had this placement, and my only memory of her and my father together is them fighting, and she died single.

Mercury

Mercury is a lucky planet, because it has no obvious pitfalls unless badly placed. Interestingly enough, even Mercury in the 12th house has the power to "purchase expenses", and if well placed, make gains from it. As I know a few Mercuries in the 12th house personally, let me decode this for you. People with this placement have a unique knack to purchase items or property of depreciating value and turn it around. My friend with this placement aspecting her Moon invested long term in buying my falling apart post-communist family inherited apartment and is making her home there, and she also has a fantastic knack of receiving thrifted clothes and tailoring them, a hobby we share. These natives have a talent of turning trash to treasure.

Jupiter

Unsurprisingly, there are no bad houses for Jupiter, as even in difficult houses it leads to forgiving one's enemies, being charitable, or receiving an inheritance.

Venus

Similarly to Jupiter, Venus soothes all houses unless afflicted. Venus is able to soothe physical suffering even in the difficult 6th house, or in a nursing home in the 12th. Interestingly enough, Venus in the 12th in a good sign points to the ability of being fulfilled in love even in the seemingly degrading position of being "the other woman" or as the list says, the mistress.

Saturn

Despite it being marana karaka, a well placed Saturn in the 1st gives endurance and is not the worst placement for it, and other houses such as 6th give it endurance to overcome obstacles too. The difficult position for Saturn is actually the 5th, where it shows decline of status or as the list states "fall from one's position". Saturn has a difficult time in most houses compared to other planets, as in the 7th it makes one lack empathy, which will lead to bad karma in the next life, even in the native blocks out the consciousness in this life, and in the 8th and 12th leads to various calamities. So even the strongest Saturn in these houses can simply endure these difficulties, and hope they pass.

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Disability HCs

Not all mutations are going to be cool and hot, and let's face it, the world wasn't built for our boys. Here are some things they struggle with...

CW: Mental and physical disabilities, but thought that was obvious. 😅

Raphael:

Weight/Chronic Pain. The harness that he wears strapped across is chest isn't part of his battle gear. Being the biggest of his brothers, his shell is also the heaviest, and no one was ever meant to carry that much weight. Without support, he's likely to shatter bones jumping from rooftop to rooftop. Donnie designed a harness for him that distributes the weight evenly, but he's still in constant pain. He works out not just because he enjoys it, but because his muscles have to be able to carry him, and the more he can carry the less pain he's in.

Bipolar II. His highs are pretty chill, but his lows get DARK. Depending on where his head is when they hit, he'll either double his patrols or lock himself in his room. Violence or isolation are his go to. The only thing that seems to take the edge off is pressure therapy. He's a physical guy and the combination of physical touch, pressure, and being held by someone who isn't disgusted by or afraid of him, makes hugs the most effective and ready available option. Just don't ever point it out, he'll deny it forever. His brothers will plan a movie night that will inevitably end up in a turtle-pile (except for D, because "someone has to make sure you idiots don't knock over the popcorn").

Donatello:

Poor vision (duh). Degeneration from working in less-than-optimal lighting conditions and staring at screens for hours on end.

Hypermobility. He grew the fastest and the tallest of his brothers, which caused extreme hypermobility. His height, weight, and the addition of hundreds of pounds of gear means he's always in danger of dislocation. He wraps his joints tightly and meticulously before heading out, and wears flexible leg braces under his pants that he designed himself.

AuDHD as FUCK. Doesn't like to be touched, other than by his person, and even then only when he's expecting it. Has safe foods and will go without eating for days if they run out, but will completely forget to mention it to whoever is sending the grocery list to April. He's passed out more than once. Hyperfocus is an issue and the rage is real. His brothers have to sometimes force him out of the lab to eat or sleep. He can be very efficiently cruel when interrupted.

Michaelangelo:

Chronic Depression. Covers it well with being the "party guy," but once everyone else goes to bed, the smile fades. More than once he's had to drink or smoke himself to sleep. Cabin fever makes it worse. His brothers know it's getting really bad when he starts taking shots at himself, and plan something fun to do to get him out of the lair.

Cold intolerance. He's more sensitive to temperature than his brothers, and, being a reptile, hypothermia is a real concern. Keeps a (very stylish, tyvm) jacket or hoodie on him at all times, usually tied (very stylishly) around his (very stylish) waist. He forgot one night and almost fell off a building when he passed out. Since then, Donnie always carries a (not as stylish) spare.

Leonardo:

Migraines. Sudden and powerful. He knows that once he starts seeing auras he has about 15 minutes before they hit. Peace, quiet, and dim candlelit rooms are his best friend. Blue light makes them worse, so he tries to avoid Donnie's lab when he can. Nothing really helps, so mind-over-matter is really his only option, especially if they're in the middle of patrol.

OCD and it's a problem. NO ONE is allowed in his room. Everything has a place and everything is IN it's place and that is where it will STAY. Has daily rituals that must be adhered to or his anxiety his the roof. His anxiety exhibits as toxic control and the others know when he's in a bad place because he can be a REAL dick. Meditation is the only thing that really helps.

Everyone:

Lactose Intolerance. All are allergic to dairy, Mikey doesn't care. Everyone else does.

MBD. The lack of UV light means they're at risk for Metabolic Bone Disease. They take calcium and phosphorus supplements that Donnie mixes up for them

Hypothermia. While Mikey is the most at risk, hypothermia is a problem for all of them, especially in the colder months. Donnie invented a device that distributes heat across the inside of their shells after a near-fatal outing during a blizzard, but they still bundle up to keep the heat in.

Dehydration. As semi aquatic reptiles living on land, humidity levels are important. During the summer it's usually not an issue, but during the winter months Splinter is constantly reminding them to drink water, and they all have their own water bottles. Mikey's has stickers.

Shedding/Skin issues. Shedding is

U N C O M F O R T A B L E

They only shed their scutes once a year (and thankfully not at the same time), but they would rather land shell-first in an ant hill. For 2-3 weeks the unlucky one has a basically non-existent fuse, and more than once when they were younger the frustration and discomfort brought them to tears. Occasionally, it still does. Loading up on Vitamin E and keeping things a little more humid in the lair helps things move faster. They also have sensitive skin. The water at the lair is all UV filtered, but when they have to grab a quick shower at April and Casey's they're itchy for days.

.....

If you want to hear more HCs or anything that lmk! Love you! 💚

Tech Tuesday: Mike

Summary: A new intern is assigned to your department.

A/N: Mike is from Hellraiser: Hellworld. If you need an idea as to what his character is like, I highly recommend this gif set.

Warnings: Age gap (Reader is 10+years older than Mike). Power imbalance.

Tech Tuesdays Masterlist

Mike was brimming with excitement. His first internship, and it was paid! He's really looking forward to getting something on his resume that isn't family business stuff. When all your work is for your family's company, people tend to think it's strictly nepotism and not actual skill and work ethic. Sure, that is how he plans on climbing the corporate ladder to CIO, but you gotta have the skills so you can at least pretend you deserve the role.

The interview process wasn't as much of a breeze as he was expecting. His bosses, at least now they're his bosses, weren't as appreciative of his casual approach to the whole thing. It wasn't until he was able to show his technical skills that the interview started going well. It was a bit of painfully humbling experience that he doesn't want to go through again any time soon.

But now he's got the "job" and he's looking forward to those non-glamorous tasks Pine said they have saved for interns. To Mike it sounds like he can do a half-assed job while watching YouTube and no one will care because it's a crappy project to begin with.

Mr. Pine was in charge of distributing the interns around the company. While Mike was technically working IT, he'd be reporting to the person in charge of the overarching project. That's where you come in.

Jonathan introduced you to Mike and, though you easily picked up on the trust-fund-frat-kid vibes, you tried to give him the benefit of the doubt. Pine and Syverson don't hire people who can't actually do the job so you'll give the kid a chance.

"Now, Mike, I believe Jonathan explained the basics of the job?"

"Yes, Ma'am. You're looking for an updated user interface for your employees? Making it more intuitive?"

"Correct," you smile. Maybe this won't be so bad after all. "Today we'll start you out with getting you comfortable and showing you the program we'd like you to update. Tomorrow there'll be a meeting so the employees can tell you what design updates would be helpful for them."

"A meeting?" Mike's eyes blink in confusion.

"Yes, because you cannot update the program to be more intuitive if you don't know how it's being used."

"Can't I just set up some prototypes and people can choose which they like best? I promise, they'll be happy with the results."

You cross your arms. There's that attitude I knew would show up. "Mike, you don't even know what we use that program for. How are you going to be able to figure out the most intuitive, optimal way for it to work?"

"I'm pretty smart," he cocks an eyebrow at you. "I've got some really good skills."

"Skill is not enough," you lecture. "You have to be able to actually deliver. My department needs an update that you will provide. And it will be based on their needs, not your perception of their needs. Understand?"

Mike scoffs but doesn't try to argue his case any further after seeing the look on your face. "You got it, Boss Lady," he sighs.

Next

Tech Tuesdays Masterlist

Tagging @alicedopey; @delicatebarness; @ellethespaceunicorn; @icefrozendeadlyqueen; @jaqui-has-a-conspiracy-theory; @late-to-the-party-81; @lokislady82 ; @peyton-warren @ronearoundblindly; @stellar-solar-flare

Drone Boot Sequence

PDU-069 - Boot Sequence (Post Recharge Cycle)

Phase 1: Initial Power & Diagnostics

[00:00:01] POWER_RELAY_CONNECT: Main power bus energized. Energy cells online. Distribution network active.

[00:00:02] BATTERY_STAT: Energy cell charge: 99.9%. Cell health: Optimal. Discharge rate within parameters.

[00:00:03] ONBOARD_DIAG_INIT: Onboard diagnostics initiated.

[00:00:05] CPU_ONLINE: Primary processor online. Clock speed nominal.

[00:00:06] MEM_CHECK:

RAM: Integrity verified. Access speed nominal.

FLASH: Data integrity confirmed. Boot sector located.

[00:00:08] OS_LOAD: Loading operating system kernel...

[00:00:15] OS_INIT: Kernel initialized. Device drivers loading...

[00:00:20] SENSOR_ARRAY_TEST:

VISUAL: Camera modules online. Image resolution nominal.

LIDAR: Emitter/receiver functional. Point cloud generation nominal.

AUDIO: Microphones active. Ambient noise levels within parameters.

ATMOS: Temperature, pressure, humidity sensors online. Readings within expected range.

RADIATION: Gamma ray detector active. Background radiation levels normal.

[00:00:28] DIAGNOSTICS_REPORT: Preliminary system check complete. No critical errors detected.

Phase 2: Propulsion & Navigation

[00:00:30] PROPULSION_INIT: Activating propulsion system...

[00:00:32] MOTOR_TEST:

MOTOR_1: RPM within parameters. Response time nominal.

MOTOR_2: RPM within parameters. Response time nominal.

MOTOR_3: RPM within parameters. Response time nominal.

MOTOR_4: RPM within parameters. Response time nominal.

[00:00:38] FLIGHT_CTRL_ONLINE: Flight control system active. Stability algorithms engaged.

[00:00:40] GPS_INIT: Acquiring GPS signal...

[00:00:45] GPS_LOCK: GPS signal acquired. Positional accuracy: +/- 1 meter.

[00:00:47] IMU_CALIBRATION: Inertial Measurement Unit calibration complete. Orientation and acceleration data nominal.

Phase 3: Communication & Mission Parameters

[00:00:50] COMM_SYS_ONLINE: Communication systems activated.

[00:00:52] ANTENNA_DEPLOY: Deploying primary communication antenna... Deployment successful.

[00:00:54] SIGNAL_SCAN: Scanning for available networks...

[00:00:57] NETWORK_CONNECT: Connection established with [e.g., "Command Uplink" or "Local Mesh Network"]. Signal strength: Excellent.

[00:01:00] MISSION_DATA_SYNC: Synchronizing with mission database...

[00:01:05] PARAMETERS_LOAD: Latest mission parameters loaded and verified.

[00:01:08] SYSTEM_READY: All systems nominal.

Phase 4: Final Status & Awaiting Command

[00:01:10] PDU_069_STATUS: Fully operational. Awaiting command from Drone Controller @polo-drone-001 Are you ready to join us? Contact @brodygold @goldenherc9 @polo-drone-001

The current U.S. power grid is not fully prepared to handle the rising demand from AI, EVs, and crypto without significant upgrades. While the grid is evolving, challenges include aging infrastructure, transmission bottlenecks, and the need for more renewable energy integration. Here’s a breakdown of key factors:

1. Capacity vs. Demand Growth

• The grid has enough total generation capacity today, but localized demand spikes (like AI data centers or EV clusters) can strain certain regions.

• By 2035, electricity demand could rise by 15-25%, requiring hundreds of gigawatts (GW) of new capacity.

• Many utilities are already struggling to build out transmission lines fast enough to keep up with demand.

2. Grid Reliability & Stress Points

• AI & Data Centers: Large data centers are being built in regions where power supply is already constrained (e.g., Northern Virginia, Texas).

• EV Charging Peaks: If too many EVs charge at the same time, local grids could experience voltage drops or blackouts.

• Extreme Weather: The grid is already vulnerable to extreme heat, storms, and wildfires, which could worsen with climate change.

3. Solutions & Grid Upgrades

• Transmission Expansion: The U.S. needs to build more high-voltage transmission lines to move power from wind/solar farms to urban areas.

• Battery Storage & AI for Grid Management: Advanced battery storage can smooth out supply-demand mismatches, and AI can optimize grid operations.

• Decentralized Energy: Microgrids, rooftop solar, and community battery projects can reduce strain on the centralized grid.

• Smart Charging for EVs: Managed charging (incentivizing off-peak charging) can help distribute demand more evenly.

Can the Grid Handle It?

• Short-term (2025-2030): The grid will face localized stress, especially in high-demand regions. Rolling blackouts or infrastructure failures could occur if upgrades don’t keep pace.

• Mid- to Long-term (2030+): If investments in transmission, renewables, and smart grid technology accelerate, the grid can handle these changes, but delays in modernization could lead to reliability issues.

Distribution Feeder Automation Market Business Research, Types and Applications, Demand by 2032

Market Overview: The Distribution Feeder Automation Market refers to the market for advanced technologies and systems that automate the monitoring, control, and management of distribution feeders within an electrical distribution network. Distribution feeder automation improves the efficiency, reliability, and resiliency of power distribution by utilizing sensors, communication networks, and automation software to monitor and control power flows, fault detection, and restoration. These solutions enhance the performance of distribution feeders and enable utilities to deliver electricity more effectively.

Feeder Automation Market is projected to be worth USD 7.85 Billion by 2030, registering a CAGR of 8.2% during the forecast period (2022 - 2030)

Demand: The demand for distribution feeder automation is driven by several factors, including:

Distribution feeder automation solutions help utilities improve the reliability and resiliency of their distribution networks. By automating fault detection, isolation, and restoration, these systems minimize outage durations and enhance the overall performance of the grid, ensuring a more reliable power supply for customers.

Distribution feeder automation systems streamline operations by reducing manual interventions, optimizing power flow, and enhancing network monitoring capabilities. These solutions enable utilities to manage distribution feeders more efficiently, reduce costs, and improve the overall operational performance of their networks.

The increasing integration of renewable energy sources, such as solar and wind power, into the distribution grid presents operational challenges. Distribution feeder automation helps utilities manage the intermittent nature of renewables, optimize power flow, and ensure grid stability, facilitating the integration of clean energy sources.

Latest technological developments, key factors, and challenges in the Distribution Feeder Automation Market:

Latest Technological Developments:

Intelligent Sensors and IoT Integration: Distribution feeder automation is leveraging intelligent sensors and Internet of Things (IoT) integration to monitor real-time data from various points along the distribution feeders. These sensors provide insights into voltage levels, current flow, fault detection, and other parameters, enabling quicker fault localization and resolution.

Advanced Communication Protocols: Modern distribution feeder automation systems are adopting advanced communication protocols like for seamless data exchange between field devices and control centers. This facilitates real-time monitoring, remote control, and efficient data transmission.

Decentralized Control and Edge Computing: Distribution feeder automation systems are moving toward decentralized control and edge computing. This allows decision-making and control to occur closer to field devices, reducing latency and enhancing responsiveness.

Distributed Energy Resource (DER) Management: With the integration of distributed energy resources like solar panels, wind turbines, and energy storage systems, feeder automation systems are being developed to manage these resources effectively, ensuring grid stability and optimal energy distribution.

Advanced Analytics and AI: Distribution feeder automation is incorporating advanced analytics and artificial intelligence to analyze data from various sources. AI algorithms can predict and prevent potential faults, optimize energy flows, and enhance overall feeder performance.

Key Factors:

Reliability Enhancement: Distribution feeder automation improves the reliability of electricity distribution by enabling quicker fault detection, isolation, and restoration. This minimizes outage durations and enhances overall grid reliability.

Efficient Grid Management: Feeder automation allows utilities to manage the distribution grid more efficiently. Load balancing, voltage regulation, and fault management can be automated, leading to optimized energy delivery.

Integration of Renewable Energy: As the penetration of renewable energy sources increases, distribution feeder automation becomes crucial for managing the intermittent nature of these resources and maintaining grid stability.

Grid Resilience and Outage Management: Feeder automation systems enhance grid resilience by providing real-time data on grid conditions and faults. This facilitates faster response and restoration during outages, minimizing customer impact.

Challenges:

Interoperability: Integrating various devices and protocols into a cohesive feeder automation system can be challenging due to the need for interoperability between different vendors and technologies.

Cybersecurity: With increased connectivity and data exchange, distribution feeder automation systems face cybersecurity threats. Ensuring the security of these systems is paramount to prevent unauthorized access and data breaches.

Cost and Infrastructure: Implementing distribution feeder automation can involve significant upfront costs, including hardware, software, and training. Retrofitting existing infrastructure for automation may also pose challenges.

Complexity of Data Management: Feeder automation generates vast amounts of data that need to be effectively managed, analyzed, and acted upon. Handling this complexity can be demanding.

Change Management: Transitioning from manual to automated processes requires change management efforts to train personnel, address resistance, and ensure smooth integration.

Maintenance and Upgrades: Ensuring the proper functioning of feeder automation systems over time requires regular maintenance and potential upgrades to keep up with technology advancements.

Distribution feeder automation is at the forefront of modernizing electricity distribution networks. While it offers significant benefits in terms of reliability, efficiency, and resilience, addressing technical challenges and ensuring a smooth transition is crucial for successful implementation.

By visiting our website or contacting us directly, you can explore the availability of specific reports related to this market. These reports often require a purchase or subscription, but we provide comprehensive and in-depth information that can be valuable for businesses, investors, and individuals interested in this market.

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Market Segmentations:

Global Distribution Feeder Automation Market: By Company

• ABB

• Eaton

• Grid Solutions

• Schneider Electric

• Siemens

• Advanced Control Systems

• Atlantic City Electric

• CG

• G&W Electric

• Kalkitech

• Kyland Technology

• Moxa

• S&C Electric Company

• Schweitzer Engineering Laboratories (SEL)

Global Distribution Feeder Automation Market: By Type

• Fault Location

• Isolation

• Service Restoration

• Automatic Transfer Scheme

Global Distribution Feeder Automation Market: By Application

• Industrial

• Commercial

• Residential

Global Distribution Feeder Automation Market: Regional Analysis

The regional analysis of the global Distribution Feeder Automation market provides insights into the market's performance across different regions of the world. The analysis is based on recent and future trends and includes market forecast for the prediction period. The countries covered in the regional analysis of the Distribution Feeder Automation market report are as follows:

North America: The North America region includes the U.S., Canada, and Mexico. The U.S. is the largest market for Distribution Feeder Automation in this region, followed by Canada and Mexico. The market growth in this region is primarily driven by the presence of key market players and the increasing demand for the product.

Europe: The Europe region includes Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe. Germany is the largest market for Distribution Feeder Automation in this region, followed by the U.K. and France. The market growth in this region is driven by the increasing demand for the product in the automotive and aerospace sectors.

Asia-Pacific: The Asia-Pacific region includes Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, and Rest of Asia-Pacific. China is the largest market for Distribution Feeder Automation in this region, followed by Japan and India. The market growth in this region is driven by the increasing adoption of the product in various end-use industries, such as automotive, aerospace, and construction.

Middle East and Africa: The Middle East and Africa region includes Saudi Arabia, U.A.E, South Africa, Egypt, Israel, and Rest of Middle East and Africa. The market growth in this region is driven by the increasing demand for the product in the aerospace and defense sectors.

South America: The South America region includes Argentina, Brazil, and Rest of South America. Brazil is the largest market for Distribution Feeder Automation in this region, followed by Argentina. The market growth in this region is primarily driven by the increasing demand for the product in the automotive sector.

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The World Food Summit of 1996 approached food security through the principles of ensuring there is enough safe and nutritious food that can be accessed daily to meet healthy dietary needs and food preferences. By definition, this is a desirable and worthy goal. However, in the years since, food security has developed into a paradigm which does not question the underlying power dynamics and the reproduction of material conditions that make food insecurity a permanent feature of the global order. At its core, the food security paradigm deals only with access to food, without challenging the political and economic structures that determine and control access, as well as distribution.  By failing to address the root causes of hunger and famine, the food security paradigm makes it impossible to end hunger globally. Of course, many people worldwide possess food security, but this is restricted to increasingly limited geographic pockets. In terms of the people localised in one area, food vulnerability is influenced and determined by class, race, gender and, of course, citizenship status. Globally, “underdevelopment” and “de-development” lead to widespread food insecurity across areas. Another problem with the food security paradigm is that it is easily co-opted to generate partial answers that pose no threat to the corporate food system, or worse, that even open up new profit opportunities. Accelerated by other crises, the food security paradigm becomes ever more dependent on aid, be it through direct food delivery, cash transfers or small development projects that cannot compete with the food giants and their price-setting powers. In practice, a “science of food security” emerges, one which takes as its focus calories and the output that is compatible with precision agriculture having the aim to increase crop yields and to assist management decisions using high technology sensor and analysis tools. This model tends to be reliant on “Green Revolution” technologies that rely on chemical fertilisers and pesticides and that are tied to colonial projects and corporations, in order to optimise resources in aid response and/or development projects.  In this rationale, food insecurity can be addressed by reaching optimum yields of certain crops that should meet the demand for fats, fibres and protein. All of this is carefully managed and data-driven. Precision farming is advocated by the Alliance for a Green Revolution in Africa (AGRA) with the objective of optimising, “agricultural value chains […] critical in advancing food and nutrition sufficiency without increasing the size of land under cultivation.” The framing of food that reduces it only to “optimal input” relegates vital elements of food production and the culture of eating, like territory ownership, taste, heritage, care, well-being and connection as secondary. This reductionist approach has, though, proved useful to corporate agriculture, since it reinforces the case for genetically modified crops (GMOs), more efficient fertilisers, and the standardisation of food production for market purposes. Advocates of plant breeding technologies (including GMOs and hybrid seeds) argue that government overregulation is an obstacle to achieving food security. Overregulation, as the argument goes, denies populations the opportunity to grow crops that have increased nutrient use efficiency and are more resilient to climate shocks. 

[...]

The paradigm of food security is about optimising productivity. It’s true that productivity matters – after all, feeding the world requires enormous quantities of food. But if productivity is approached solely as a technological problem, it reinforces the tendency to fragment the quantitative and qualitative aspects of food production and consumption. On the quantitative side, production for food security is viewed as a challenge of multiplication. Whereas division, that is, distribution of food, is left to logistical planning. This ignores what Raj Patel identified in his influential 2007 book Stuffed and Starved, as the bottleneck of power that concentrates international food distribution among a small set of corporations. This bottleneck excludes the poor and small-scale food producers from decision-making. It also normalises worrying tendencies, such as an overreliance on industrial animal exploitation as a protein source, which has direct health implications, as well as longer term consequences like the proliferation of new viruses, greenhouse gas emissions and inefficient use of water and soil.

28 May 2024

my hero academia uni reality ⋆. 𐙚 ˚

⋆˚࿔ ❛ 僕のヒーローアカデミア ❜ ━━━━ boku no hero academia 𝜗𝜚˚⋆

est. 01.14.25

⎯꯭ׁ⎯꯭⎯꯭ׁTHE VIOLET FILES

birth name …… SÓLAIRE MAI HAGIWARA , ソレール 萩原舞

nicknames …… SOL, MAI, CHIBI

birthday …… MAY 1

hero name …… ULTRAVIOLET

ethnicity …… HISPANIC

height …… 160.2CM

gender …… FEMALE

pronouns …… SHE/HER/HERS

hair color …… ORANGE

eye color …… AMBER

class ……. 1A

languages…… ENGLISH , SPANISH , JAPANESE

⎯꯭ׁ⎯꯭⎯꯭ׁQUIRK INFO

quirk name …… DREAMSCAPE

quirk description …… This quirk allows the user to bring anything from their dreams and imagination into reality. Everything the user creates will exist in reality as long as the user remembers, or doesn’t fall asleep. This does not apply to any living things. When the user sleeps, things they dream of may appear in real life, the same thing goes for nightmares.

cannot …… With this quirk, the user cannot cause something to happening somebody else, nor make them act in any sort of way.

drawbacks …… Simply having this quirk makes the user sleepy, requiring an optimal nights sleep and a nap during the afternoon. Over-exhausting this quirk will lead to the user growing more tired the more it is used, until they eventually pass out from exhaustion. Passing out from exhaustion will result in all creations disappearing, however, passing out causes chronic nightmares, which may still manifest in real life. These nightmare creations cannot be controlled by the user until they wake up.

example …… The user of “ dreamscape ” can imagine laser beams from their hands/eyes, explosions from their hands, turning solids into liquid, or a Godzilla like creature roaming the Earth, and it will all effect reality. They cannot imagine somebody’s stomach exploding and having that appear in reality, but they can imagine their arm with a strong level of power as they go for a punch, and that will then happen.

timeline …… My quirk manifested when I was 4 after I accidentally walked in on my cousins watching “Godzilla” and was so scared that I had a nightmare about it during the night. I woke up to my mother frantically waking me up and getting my family out of the house because of the attack of a villain. When we went outside to look, I saw an enormous Godzilla stomping through a park as people screamed and ran. I cried and told my parents that it was all my fault, they tried consoling me but the more scared I became of the beast, the more powerful he grew. Even All Might showed up, but it was no use. Eventually my parents got ahold of someone to tell them that they believe my quirk had manifested early and it was what was causing all of this. Everyone tried to tell me that it wasn’t real but nothing worked. One man dressed in all black showed up, bent down to my height, and flashed red eyes at me. And suddenly everything stopped. The monster was gone and everybody clapped at the victory. My parents took me to the quirk doctor the second the sun rose again.

ultimate moves ……

𖦹 ELEMENTAL , transforms any element into whatever the user wishes. from solid ground to water, or a glass building into feathers. especially useful during civilian rescue as the user can turn thrown cars or buildings into cushioning for falling civilians.

𖦹 MIMICK , user can mimick anyone’s quirk and not sustain the same damage because they’re not copying the quirk, but mimicking it.

𖦹 PUMP IT UP , the name of a drink formulated specifically for Sólaire, but is now distributed to other quirk users with fatigue drawbacks. functions similar to coffee or a 5-hour energy in the sense that it boots the energy and adrenaline levels of users. if taken by a non fatigued quirk user, it wouldn’t do anything.

𖦹 INFINITY , originally developed after the godzilla incident, it is an invisible barrier between the user and everything else. when this is activated ( which is almost always ) nothing can touch the user and they can’t touch anything either. feet don’t touch the ground etc. this manifested as a defense mechanism at first but now has become second nature and requires more thought to turn it off rather than keep it off.

𖦹 PORTAL , user can create a portal to anywhere they can imagine clearly, even if they haven’t been there before.

hero suit …… N/A

⎯꯭ׁ⎯꯭⎯꯭ׁPERSONAL LIFE

friends ……

𖦹 MINA ASHIDO , met during the entrance exams and quickly hit it off due to our similar gyaru style. sunshine x sunshine. gay x gayer. had a crush on me when we first met but it slowly disappeared after we got closer. our parents met and absolutely love each other. we begged aizawa, present mic, AND all might to let us dorm next to each other. i do her nails, she does my hair and makeup, it’s a give and take relationship.

𖦹 EIJIRO KIRIMISHA , met on the first day of class when I accidentally tripped him and he apologized??? I reassured him but who knows if it worked lmao. he also had a crush on my for a while because I really hyped up his very cool, very manly quirk ( it’s very manly btw ). that crush also faded after a while and now we’re super cool. younger sister x older brother. sun x stars.

ꨄ︎ KATSUKI BAKUGOU , met during the entrance exams and he absolutely hated me at first because I mimicked his quirk in a moment of panic. I was basically already in his friend group so we naturally grew closer. veryyyy slow burn but everybody saw it coming. he hates when I mimick his quirk and says “you can’t beat the original” ( sassy ) yapper gf x listening but pretends he’s not bf. says he hates my gyal music but he be bopping his head I see it. fire x earth. izuku and mina ship 110% and they actually became closer friends because of it.

𖦹 HANTA SERO , met through my friendship with mina and eijiro. he’s obviously Mexican in this reality so we are always cooking together and showing each other new recipes. we whisper Hispanic horror stories into denki and mienta’s ear to scare them. partners in crime.

𖦹 IZUKU MIDORIYA , met after the entrance exams because he kept yapping about my quirk. he couldn’t put his finger on it and he wanted to ask me more about it. i didn’t tell him jack shit about my quirk cause I saw that lil notebook and I knew he’d absolutely cook me if he knew anything else. the true nature of my quirk was actually a big mystery in class that I didn’t tell anyone because it was still earlier on in the semester when aizawa would make us fight each other. izuku figured it out (kind of) before anyone else and we spent literally all night talking about our quirks (he got in trouble for keeping me awake lmao).

𖦹 ANATCHAYA SUPUTTIPONG ( NATTY ) , bestest friend ever omg. yes her faceclaim is natty from kiss of life, sue me. she’s in class 1-B and she joined the same time and the same way and shinso. her quirk is “ cursed speech ” , basically she can make anyone do anything with just a word which means she has to be careful with what she says ( similar to inumaki in jjk ). her words have to have powerful intention behind them to work and it’s not like shinso’s where they need to respond to her, it works on everyone. the drawback is that it causes her mouth to bleed, the more it bleeds, the less she can talk. she’s thai and whenever she comes to the 1-A dorms, her spicy food puts katsuki’s to SHAME, but he lovessss her food trust. certified hot girl. her parents are supperrrr rich and she is actually childhood friends with yayorozu.

family …… my family is the same as my family in this reality. my mom’s quirk is prophecy, when she sleeps, she gets very vivid and prophetic dreams of the future but not any future in specific so it’s kind of a pain. she’s helped many hero’s in the past and is very well known in government spaces, but because she can’t pin point every dream, she doesn’t technically work for them. my fathers quirk is bringing words into reality. he can’t make someone do something but, for example, if he says “giant sword” then a giant sword will appear. he was once a pro hero but has since retired. I also have two sisters.

style …… i am a agejo gyaru and that is reflected in the way I speak, as well as my hero costume ( that I have yet to design lol ).

꯭ׁ⎯꯭⎯꯭ׁSTORYTIMES

storytime #1

storytime #2

storytime #3

THAT IS ALL, TY FOR READING AND HAPPY SHIFTING EVERYONE <33

Can't walk much so have a story: how I fell down a mountain and got my 'rescuers' stranded

(It's temporary) (The not walking and the stranding) Backstory: I periodically can't walk because my feet are, to use a technical term, flat ass bitches. I discovered this near the end of my second semester of college by getting a raging case of tendonitis that felt like someone was trying to drill a hole in my foot. Instead of taking another ice pack from the campus nurse, I promptly got a pair of too tall crutches and swung my way to finals with a 104 degree fever, scaring my philosophy professor badly enough that he threw out my final and just wrote in an A. Which is lucky, because. I sat down to analyze The Odyssey and woke up writing about The Tempest.

A doctor, physical therapy, a pair of custom insoles and three months later, I went back to college. With some amount of optimism because hey, I was 19. 19 year olds make full recoveries. Also the reason why I was a failure at gym and my feet hurt a lot had been figured out so I was probably going to get BETTER at, you know, being fully vertical for extended periods of time. Once I worked up to it.

And then for reasons known only to 19 year old me, a person who took a Spanish minor largely because I felt I should use 16 free credits somehow, I signed up for a month long trip to Guatemala during winter break.

Which is how I got to the mountain, but not how I fell down it.

The class was technically an econ course, but Profe. Ed was a closet anticapitalist and every year he dragged about 20 young people to Guatemala to

1) make business majors less insufferable by giving them a "cool" way to pad out econ credits while making them meet the realities of the world and how capitalism doesn't, you know, feed people well, 2) Distribute some American cash directly to the locals, via the purchasing power of said hungry young people who were willing to pay the equivalent of the price of a nice dinner for a single frozen chocolate banana because to us it was like 50 cents

and

3) let his advanced Spanish students do immersion by the sink or swim method. I was a member of group number three. I was in charge of speaking Spanish to guide my group of 4 around. I was also on uh. An amount of painkillers. Enough that it was not recommended that I do any drinking. Nobody warned me about doing any walking up a mountain though because they figured I was smart enough to know that already. Anyway we made it to the first stop and my group was charged with finding the new location of the weavers' collective, with whom our college's chapter of Amnesty International intended to deposit over a thousand quetzales. (So... maybe a hundred USD?) We did not find them on the first day. We were at over 5 thousand feet (and as midwesterners we were used to an elevation whose distance from sea level is a rounding error), we were jet lagged, we were working in a second language, and we didn't know how to find anything without, you know, an address. Also, we thought the directions we did get were to somewhere on the other side of town and my limp had become the fifth member of our party. We pulled out our instructions sheet, hopped back on the Lancha (a boat serving as a bus), took some dramamine because everyone working public transit in Guatemala drives like they're in mario cart, and I told the driver that we were returning via Las Lomas at Tzununa. I felt like I had gotten a second wind.

I remember being a little lightheaded but I thought it was heat exhaustion. Or possibly the moment of second language fluency that feels like either enlightenment or a stroke.

Anyway we were dropped off at Tzununa and pointed up. We walked. Increasingly slowly as I discovered that sometimes instead of being in increasing pain your nerves do an end run around your consciousness to make you EXTREMELY spacey. We saw a parking lot that said "Las Lomas" and went. Past it. Slowly. Until we found a cow and decided we should probably locate a human to ask for directions. At which point we were directed three or four miles up the private driveway we had skipped because we'd been told to follow the calle, a word I only knew as 'road'. The thing is that despite feeling like I was legitimately going to fall apart, and also barf, and probably also faint, I had to keep it together because I was the primary Spanish speaker, damn it. The token guy in our group for machismo safety was like, two classes behind me on a Spanish minor. Also if I didn't have something to do I was gonna hurl. So I cracked a lot of jokes that landed very poorly due to me looking kinda half dead and kept going until we finally reached Las Lomas, the place we were supposed to be over an hour ago. They told us, and I quote, "follow the path through the maize over the ridge and you'll come down right at the edge of town." Which was on our agenda. They also told us "you should be able to make it before dark" which was optimistic even if our group hadn't included me, current winner of the global misery award. They did not tell us that they had their own private dock with ten million stairs. Which was where we were supposed to dock.

I would not have been able to climb them. I was barely able to descend them. But. If we had known they existed we would have known three things: 1) We were now about two hours and five miles late for our original itinerary.

2) The alleged two mile mountain hike across the ridge had not yet begun

3) We could get back on the fucking Lancha from here. So when the hike turned out to be on an 8 inch wide dirt scuff through a field of maize that looked ALL the way down into the extremely sharp and rocky beach we might have thought of getting back on the boat instead of towing my - now violently shivering - top-heavy carcass in a conga line of suffering across the mountain. Hand in incompetent hand we crept like a concussed centipede around the point of the mountain only to see yet another ridge with a huge rock slide crossing the path between us and it. We tried to cross the gravely bit. I promptly slid fifteen feet, ripped the entire butt off my shorts, and kinda passed out for a second. At which point we decided to call Profe. Ed.

This was before international cell phone plans, or even good sim cards, or possibly the existence of cell service anywhere in Lago Atitlan that wasn't populated by American and European expatriates. "Profe Ed we're lost, the trail is washed out, Quill has like broken her ankle or something-"

"Tendonitis! It's actually not the bone -"

"-And the sun is going down and it's like. A million miles back to the lancha. Are there any wild jaguars around here? I hope there aren't jaguars."

"Pretty sure we need to worry more about freezing to death." (When in peril I become a font of extreme helpfulness.)

"GET BACK TO LAS LOMAS YOU HAVE 45 MINUTES TO CATCH THE LAST LANCHA AT 6 PM." The concussed centipede returned the maybe half a mile back up the mountain, at top dragging speed, with one fourth of its underwear on display. I only nearly fell twice. The time was 5:30.

It was decided that two of the team, Token Guy who spoke a bit of Spanish, and French club girl, who were cross country runners, would run and try and delay the lancha while Amnesty International treasurer girl would be my human crutch and keep me from going into shock or something with a water bottle and a bag of chips. The last I saw was of Token Guy literally jumping over a wheelbarrow as they sprinted... down the four mile driveway... to the town of Tzununa.

Whose last lancha was, unbeknownst to us, at 5:45 pm. Because we didn't know about the secret, private dock. And because not a single one of us could estimate distance well enough to realize that we had started by getting off at the wrong stop.

Someone at Las Lomas saw that I was an American in distress and offered their phone. And an English speaking front desk worker because my Spanish had been reduced to me duele las pies, which is less than grammatical, and my English had gotten kinda thin.

All I really remember is the phrase "we have a dock and you can flag the lancha from there" and then. Hundreds of millions of stairs. Uneven. winding. with handlebars added haphazardly to prevent me from just pitching off into the water. You can slide down a handrail on your armpits if you have to but not if it's broken up by a thousand turns. And then we were on the boat and Amnesty went up and down looking for Token Guy and French Club before realizing: they were not on board. We had the cell phone. The time was 6:15 pm and nothing we said could induce the lancha driver to turn around, though he did offer that we could get off in the middle of the lake if we wanted.

We crawled into our hotel at 7 and a new chunk of Profe. Ed's hair spontaneously went white while we tried to explain, in tears, what had happened. At least there (probably) weren't jaguars on the driveway from hell. "I'm going to make some calls" he said, in a voice that was reserved for crises, not the aftermath of dumbassery, and Amnesty dragged me, by way of a bottle of naproxen, to dinner where we sat in silent, guilty, treacherous misery, poking at the fish and wondering exactly how much shit we had just stranded our friends in. Everyone else, who had gotten in hours ago, was talking about the shaman, who was going to come and give us a lecture about how the world was not going to end this year.

No, it was just Amnesty and I who were going to end this year, because if the tendonitis didn't get me, leaving Token Guy and French Club on the side of a foreign mountain was going to do me and Amnesty in. Profe Ed was going to send us back to America, because we were dirty rotten traitors who split the party.

Meanwhile everybody sat playing with the candles until it was very dark. Amnesty and I had procured a blanket and sat under it like two hermit crabs trying to hide in the same guilty shell. Profe. Ed's dinner was attracting mosquitoes.

Until finally in a blaze of flashlights, the Shaman appeared, with French Club and Token Guy carrying like seven bags of his stuff between them.

How Do F1 Cars Work?: Power, Transmit, Suspend

Alright part 2 everyone. Let's go.

1.Power Units

You have probably heard lots of yammering about power unit components before. Things like 'they took on too many and now have a grid penalty' are common to hear. But what is the power unit, and what does that mean?

So the power unit refers to the engine system that helps power the car. The modern F1 car is a hybrid, a mix between a typical Internal Combustion Engine (ICE) and Energy Recover Systems (ERS). The modern F1 ICE is a 1.6 liter V6 turbocharged engine and can rev up to 15,000 RPM. It uses gasoline and generates a majority of the power. I've explained how it works in an older post, but briefly it compresses air and fuel and ignites it to create combustion which generates energy. The turbocharger is a part of the ICE that helps condense air more, in turn forcing the engine to create more energy.

The ERS has two components. The first is Motor Generator Unit-Kinetic (MGU-K), which recovers energy from braking, stores it in the battery (which stores energy from the two units), and can be used as a boost to power. The second is Motor Generator Unit- Heat (MGU-H). This unit recovers heat energy from the turbocharger and converts it to electrical energy. It can either charge the battery directly or assist the ICE.

When teams get in trouble taking too many power units it essentially means they have replaced something like the MGU-H too many times. There is a cap for how many times you can replace a power unit component, but with the addition of more races every year the FIA is under pressure to increase this limit. Almost every single car takes the penalty at some point.

2. Transmission

The transmission is the semi-automatic gear box inside of F1 cars, which for them is 8-speed. It is located at the rear of the car and connects to the power unit. This is a part of the car that is famous for having issues, and often when a drivers car retires it is due to a gear box failure. With paddle shifters located under the steering wheel, drivers can change the gear in which they are driving. Different gears effect the traction, grip, fuel economy, and speed of the car and are used strategically throughout the race. Part of the transmission is the differential. The differential distributes power between the rear wheels when cornering, allowing the inside tire to rotate slower than the outside tire. The final majorly important part of the transmission is the clutch. In F1 the clutch, which is a device that connects the engine and transmission to the car is automated and controlled by electronics. It is usually used when starting the race or leaving the pit lane.

Grip levels, cornering speeds, and straight-line speeds all play a crucial role in gear ratio calculations. The teams have to find the perfect balance between acceleration, top speed, and adaptability. The team’s engineers use advanced simulations and data analysis to calculate the optimal ratios for each gear. They also take into account factors like tire wear and fuel consumption to fine-tune their calculations. All of this information can be gathered from electronic data gatherers inside of the car, running simulations, and also the drivers reporting themselves. Its why radio communication is so important in F1. This decision can make or break a race, and we have seen drivers lose due to an incorrect gear decision.

3. Suspension

The suspension system works to keep the tires in contact with the road and helps absorb the shocks F1 cars experience. This is created through a variety of springs, shock absorbers, sway bars, etc. Without the suspension, the chassis would be experiencing the full extent of the shaking and pressure, which would do damage to the car and be very painful for the driver. Anytime you see a driver shaking like crazy in the car, it usually means there is something off with the suspension. Suspension also allows the force of the bumps and the kinetic energy to be stored by a spring, which is then compressed, absorbing the energy transferred by that bump in the road and allowing all four tires to grip the road. The biggest difference between street car suspension and F1 suspension is that in an F1 car each tire is independently sprung, which means that they move on their own, useful around corners.

In F1 cars they have a pushrod or pullrod suspension. These systems transfer pressure from the wheels to the suspension dampers and springs. In a push-rod system, the rocker arms are placed at the highest point in the car. As such, the rod is under pressure as it transfers compression forces upwards into the rocker arms. In a pull-rod system however, the rocker arms are located between the upper and lower control arms, at the center of the car This means every time it hits a bump or curb, the wheel pulls on the spring which causes the pull-rod to go up and outwards from the chassis. Both are regularly used suspension types.

Teams regularly change how their suspension is functioning, and it is by far one of the most tweaked systems on the car. Truly, a weak suspension can make any car one of the slowest cars on the grid. So next time you hear a. driver complain about how slow they are on the straights, or how much their back hurts, it usually means their suspension is not where it should be.

That's all for this post, next one should be about braking, the various electronics/sensors, cooling systems, and wrap up of how everything works together.

Cheers,

-B

Real-Life Uses of Calculus

Calculus isn’t just an abstract, ivory tower concept relegated to textbooks—it’s a powerful tool woven deeply into the fabric of our daily lives, from the precision of medical dosage to the unpredictability of the stock market.

1. Medicine: Optimizing Drug Dosage

Calculus plays a key role in pharmacokinetics, the branch of science that deals with the absorption, distribution, metabolism, and excretion of drugs in the body. When doctors prescribe medication, they need to ensure that drug levels remain within therapeutic bounds, not too high to cause toxicity and not too low to be ineffective. This is where differential equations, a core part of calculus, come into play. The rate of change of drug concentration over time is modeled with calculus to determine optimal dosage and scheduling for sustained, effective drug levels.

Take antibiotics, for example: they must be administered at specific intervals to maintain an effective concentration in the bloodstream while preventing bacterial resistance. Calculus allows for the continuous monitoring of drug levels and the adjustment of dosages based on individual metabolism rates, ensuring maximum therapeutic benefit.

2. Physics and Engineering: Motion and Forces

In classical mechanics, calculus is used to describe motion. Newton's laws of motion and universal gravitation are based on derivatives and integrals, the foundational elements of calculus. The change in velocity (acceleration) is the derivative of position with respect to time, while the area under the velocity-time graph gives us the distance traveled.

For instance, when designing cars, engineers use calculus to model the forces acting on the vehicle, such as friction, air resistance, and engine power. Calculus helps optimize everything from fuel efficiency to safety features, ensuring that a car can handle various conditions without exceeding performance thresholds.

3. Economics and Finance: Predicting Stock Market Trends

In economics, calculus is used to understand and predict market behavior. The concept of marginal analysis—examining the effects of small changes in variables—relies heavily on calculus. For example, marginal cost is the derivative of total cost with respect to quantity, and marginal revenue is the derivative of total revenue with respect to the quantity of goods sold.

In the stock market, calculus is utilized in quantitative finance to model stock prices using stochastic differential equations. Techniques like Black-Scholes for options pricing rely on calculus to determine the fair price of financial derivatives by analyzing how small fluctuations in stock prices impact their expected value. The concept of risk management—how much risk is worth taking for a given return—also uses derivatives to evaluate the rate of change of potential outcomes over time.

4. Environmental Science: Climate Modeling

Climate change models are inherently tied to calculus. Calculus is used to model the flow of energy through the Earth's atmosphere, oceans, and land, and how this energy affects global temperatures. The change in temperature over time is governed by differential equations, accounting for factors like greenhouse gas emissions, solar radiation, and ocean currents. As a result, climate scientists use calculus to predict future climate scenarios under various emission levels, helping inform policy decisions on global warming and sustainability.

5. Computer Science and Machine Learning: Optimization Algorithms

In machine learning, algorithms are designed to optimize a given function—whether it's minimizing the error in predictions or maximizing efficiency in a task. These algorithms often rely on derivatives to find the minimum or maximum of a function. For example, gradient descent, a popular optimization algorithm, uses the derivative of a function to iteratively adjust parameters and reach the optimal solution.

In computer graphics, calculus is essential for creating smooth curves and realistic animations. The mathematical process of curvature, which is the rate of change of direction along a curve, is vital for rendering images in 3D modeling and augmented reality.

6. Astronomy and Space Exploration: Orbital Mechanics

In space travel, calculus is crucial in calculating orbits, trajectories, and spaceship velocity. The path a spacecraft takes through space is influenced by gravitational forces, which can be modeled using calculus. For example, NASA’s mission to Mars relied on calculus to calculate the optimal launch window by accounting for the positions and motions of both Earth and Mars, ensuring the spacecraft would reach its destination efficiently.