Let's talk about Zoraal Ja.

So early on in Dawntrail, shortly after Krile's first Echo off of Zoraal Ja, I was like, we are going to find out there is something fucked up happening to this guy. Maybe there's actually an Ascian in there purposefully fucking things up, or whoever the big bad of the expansion turns out to be rewired his head somehow, or, you know, some flavour of brain fuckery.

But as we go through the story and ultimately see him at his defeat, no, nothing so extreme as all that. He seems to be just Like That, and I thought it odd. By all accounts, it seemed he must have been raised okay. Gulool Ja Ja seems to have been an alright father figure, good enough to have raised two other kids into decent adults. They have their own sets of issues, but nobody's perfect, and they both do a good job course correcting for their shortcomings.

What the hell happened with Zoraal Ja? Why did he turn out the way he did?

Gulool Ja Ja is a blessed sibling, which we are not just told are exceedingly rare - we are shown so, explicitly, and we learn what the cost of a blessed sibling is to the Mamool Ja. A cost that their people bore in order to try to better their lot and win a war against the Xbr'aal. Gulool Ja Ja did not so much win their war as much as he simply ended it, bringing peace to both peoples.

That peace is simply, however, not that old. When we visit Iq Br'aax, we slowly learn the story of how that peace came to be, but throughout it, I could not help but notice that we were only getting one side of the story. The celebrated meal of Xibruq Pibil was meant to be a symbol of bringing peoples who were historically enemies together, but where were the Mamool Ja to share it with? And why did none of the Mamool Ja present seem to know how to create the recipe?

There is a peace, but here we see that it is a flawed peace. In the side quests, you learn that trade happens between the Mamool Ja and the Xbr'aal, but only in secret. The younger generation knows peace, but the older generation is still cagey about the not all that distant history with their neighbors in the forest.

And so the Mamool Ja still continue their practice of enduring the terrible loss of so many stillbirths in an attempt to create more blessed siblings. Their culture, especially the remnant that chooses to remain in the forest, is still trying to make its place in the larger world and improve their lot. They are still living in a land that makes for harsh conditions for living.

And in this we see a few things. One, Gulool Ja Ja is not perfect. He did a good job, but not a great one. The work of peace is going to need to be an ongoing project. And two, I believe it sets the foundation for why Zoraal Ja is the way he is.

He was not raised in Mamook, but he is still Mamool Ja. And like Gulool Ja Ja, he is a miracle. The trueblood son of a blessed sibling, who were long believed to be sterile. We don't know anything about his mother, and I suspect she had little influence on his life. But judging from the way the fight against him goes, and the visions we see of the people in his life, he may not have had a mother, singular, but I think he definitely had nursemaids.

And they certainly remembered what life was like in Mamook. And that history is not so old. And so early on, he is told he is special. He is told he is destined for great things. And probably, at least a little bit, there are whispers of how he might surpass his father one day.

The seed of a terrible imposter syndrome is planted.

And none of what happens requires Gulool Ja Ja to be a bad parent. In fact, I think what we get is the result of him trying to be a good parent. It seems likely he probably met his kids where they were at, encouraged their interests, and let them be who they wanted to be. Wuk Lamat probably sparred with him, and certainly got his sociable, outgoing tendencies. Koana, quiet Koana, I like to imagine he expressed an interest in sciences, and knowledge, and Gulool Ja Ja probably made sure he had the best tutors, and when the time came, made sure he had a good send off to Old Sharlayan.

And quiet, taciturn Zoraal Ja who rarely speaks. I can imagine Gulool Ja Ja let his son keep his peace. He probably assumed his son wanted his space, and left him to it. And Zoraal Ja, the miracle, watched his father. His father's living accomplishment was peace in Tural. Zoraal Ja will bring peace to the entire star. Gulool Ja Ja loves a good fight, enough that he challenges people to come to the palace and face him. Zoraal Ja will be a better fighter than his father. Gulool Ja Ja was a leader. Zoraal Ja is the leader of the Landsguard, and will succeed his father as Dawnservant.

It's interesting, I think, to compare and contrast Zoraal Ja with Bakool Ja Ja, who are more alike than they are different. Both are miracle children, both are impossible children. The Mamool Ja thought that a child born of Hoobigo and Boonewa was impossible - until the birth of the first blessed sibling. And they also believed a blessed sibling, in turn, was sterile - until the birth of Zoraal Ja, the miracle.

And both of them, I think, are carrying the weight of their people with them. Bakool Ja Ja explicitly, but I don't think Zoraal Ja got to escape it just because he was raised in Tuliyollal instead of Mamook. Even if the aforementioned nursemaids did not explicitly put the idea in his head that he might be the future of the Mamool Ja, he is not an idiot. They definitely told him he was a miracle, destined for great things.

And absent guidance from his father, who probably just wanted him to be his own person, he decided for himself what those great things would be.

Zoraal Ja is intent on completing them alone - to his ultimate detriment, in the trial in Mamook.

And while they are so very similar, the difference between Bakool Ja Ja and Zoraal Ja is that Bakool Ja Ja not only never wanted this, but he was eventually offered a path out. A way to be free of the yoke of the responsibilities his culture put upon him before he was ever even born. But Zoraal Ja never got that chance, because his burdens were not being forced upon him. He took them upon himself.

And he carried them until his death.

In the end, Gulool Ja Ja was probably a decent father, but not the right kind of father for Zoraal Ja. Zoraal Ja's ambition was born of a terrible inferiority complex that he nursed until it festered and swallowed him whole. He could have found his own freedom, but he could not see it past the shadow of his own father, who he was obsessed with eclipsing.

And so we're left with this. Zoraal Ja died in a completely avoidable tragedy of his own making.

How to Handle the JEE Main 2025 Syllabus: A Complete Guide

One of the most popular engineering entrance tests in India is the Joint Entrance Examination (JEE) Main, which is the entrance exam for prestigious universities like the IITs, NITs, and other top engineering colleges. In order to properly plan their preparation for the 2025 exam, candidates must have a complete comprehension of the material as it draws near. Here, we examine the JEE Main 2025 syllabus in depth, which covers mathematics, chemistry, and physics.

Physics JEE Main Physics requires a solid conceptual grasp as well as the capacity to apply ideas to solve challenging problems. There are two divisions on the syllabus: topics for Classes 11 and 12.

Topics for Class 11:

Units and measuring: Error analysis and measuring basics.

Kinematics is the study of motion in a plane and a straight line.

Laws of Motion: friction, circular motion, and Newton's laws.

Work-energy theorem and energy conservation relate to work, energy, and power.

Moments of inertia, torque, and angular momentum in rotational motion.

Planetary motion and gravitation: Newton's law of gravitation.

Surface tension, viscosity, and elasticity are the characteristics of solids and liquids.

Laws of thermodynamics and the kinetic theory of gases comprise thermodynamics.

Waves and Oscillations: Sound waves, simple harmonic motion, and wave motion.

Topics for Class 12:

Electrostatics: Capacitance, electric fields, and charges.

Electric Current: Ohm's Law, circuits, and electricity.

Ampere's law, electromagnetic induction, and Biot-Savart law are examples of the magnetic effects of current and magnetism.

The electromagnetic radiation possesses a wave-like property.

Optics: Diffraction, interference, refraction, and reflection.

Dual Nature of Radiation and Matter: Wave-Particle Duality and Photoelectric Effect.

Atoms and Nuclei: radioactivity, atomic models.

Electronic devices include transistors, diodes, and semiconductors.

Fundamentals of modulation, demodulation, and communication in communication systems.

Breaking Boundaries in Nerve Regeneration: Nerve Biologic Products Market Analysis

Introduction

The Nerve Biologic Products Market is a rapidly growing segment within the broader field of regenerative medicine. Nerve biologic products encompass a wide range of innovative therapies and treatments designed to repair, regenerate, or replace damaged or dysfunctional nerve tissues. These products hold immense promise in the treatment of various neurological and neuromuscular disorders, offering new hope to patients who have previously faced limited options for recovery.

Key Market Drivers

1. Increasing Incidence of Neurological Disorders: The rising prevalence of neurological conditions such as Alzheimer's disease, Parkinson's disease, and peripheral neuropathy has spurred the demand for nerve biologic products. These products provide potential solutions for restoring neural function, slowing down disease progression, and improving the quality of life for affected individuals.

2. Advancements in Biotechnology: Ongoing developments in biotechnology have paved the way for cutting-edge nerve biologic products. These advancements include gene therapy, stem cell therapy, and neurotrophic factors that promote nerve regeneration. These innovations are reshaping the landscape of neurological care.

3. Aging Population: With the global population aging, the incidence of age-related neurological disorders is on the rise. This demographic shift has driven investments in nerve biologic research and development, as well as the expansion of the market.

Product Types

Nerve biologic products encompass a variety of therapeutic approaches:

1. Stem Cell Therapies: Stem cells have the remarkable ability to differentiate into various cell types, making them invaluable for nerve regeneration. Stem cell therapies show promise in conditions like spinal cord injuries and peripheral neuropathy.

2. Neurotrophic Factors: These are proteins that promote the growth, survival, and maintenance of nerve cells. Neurotrophic factors are used in the treatment of conditions like amyotrophic lateral sclerosis (ALS) and diabetic neuropathy.

3. Gene Therapy: Gene therapy holds the potential to correct or replace defective genes associated with neurological disorders. It is being explored for disorders such as Huntington's disease and muscular dystrophy.

Market Challenges

While the nerve biologic products market holds significant potential, it also faces several challenges:

1. Regulatory Hurdles: Developing and gaining regulatory approval for novel biologic products is a lengthy and expensive process. Strict safety and efficacy standards must be met.

2. High Development Costs: Research and development costs for nerve biologic products are substantial, making it necessary for companies to secure substantial funding to advance their products.

3. Ethical Concerns: Stem cell research, in particular, has raised ethical concerns, leading to debates about the use of embryonic stem cells and the moral implications of certain research practices.

Market Outlook

The future of the nerve biologic products market is bright. As research and development efforts continue to yield breakthroughs, the market is expected to expand significantly in the coming years. The ongoing convergence of biotechnology, gene therapy, and regenerative medicine is likely to usher in a new era of treatment options for patients with neurological conditions.

Innovations such as personalized medicine, where treatments are tailored to an individual's genetic makeup, hold great promise in improving treatment outcomes. Additionally, collaborations between academia, industry, and government bodies are expected to accelerate the pace of development and enhance the accessibility of these groundbreaking therapies.

Conclusion

The Nerve Biologic Products Market is at the forefront of regenerative medicine, offering hope to countless individuals living with neurological and neuromuscular disorders. As advancements in biotechnology and research continue to shape the field, we can anticipate more effective treatments, improved quality of life for patients, and a transformative impact on the healthcare landscape. While challenges exist, the potential for positive change and groundbreaking discoveries in this field is truly exciting. The journey to unlock the full potential of nerve biologic products is an ongoing one, and it holds the promise of changing lives for the better.

Few other promising reports in Medical Device Industry

3D Printing in Healthcare Market

Extracellular Matrix Market

Butterfly Needles Market

Colon Hydrotherapy Machine Market

Chapter 18: The Magnetic Field of a Moving Charge

18.1 Introduction In this chapter, we will discuss the magnetic field produced by moving charges, such as electrons and ions, and how it affects the motion of other charged particles. Understanding the magnetic field of a moving charge is essential for various applications, including the design of particle accelerators and the analysis of plasma behavior in fusion reactors. 18.2 Biot-Savart…

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Coffee Beans Market is Estimated to Grow at a Promisable CAGR 5.6% During Forecast Period, 2021-2027

According to our latest market study on "Global Coffee Beans Market Forecast to 2027 - COVID-19 Impact and Global Analysis - by Product (Arabica, Robusta, and Others), End Use (Personal Care, Food and Beverage, and Pharmaceutical), and Geography," the market was valued at US$ 25,591.7 million in 2018 and is projected to reach US$ 41,962.4 million by 2027; it is expected to grow at a CAGR of 5.6% from 2019 to 2027.The report highlights key factors driving the market growth and prominent players along with their developments in the market.

The rich source of coffee, coffee beans are the seeds that coffee trees produce. Although the coffee beans are not actually beans, they are given the name coffee bean because of how closely they resemble real beans. The same as regular cherries, coffee beans are a type of fruit known as a stone fruit. Arabica and robusta are the two most significant types of coffee plants. A goat herder named Kaldi, according to some studies, made the first discovery of the coffee plant in Ethiopia. Coffee beans are a significant revenue crop and an essential export item.

One of the most popular drinks consumed worldwide is coffee. The demand for coffee beans is being driven by an increase in the popularity of coffee among young people, particularly in nations like India, China, and the Philippines. Coffee drinking has a number of primary motivations, including practicality, enjoyment and flavour, habit, tradition, culture, and socialisation. The growth of the middle class and generally higher living standards are factors in the rise in demand for coffee and coffee-related products. Office workers' coffee intake has also dramatically increased. Another element driving the demand for coffee and, consequently, the growth of the market for coffee beans, is the opening and growth of new and local coffee shops. Additionally, a rise in milk consumption helps the industry expand as consumers blend milk and coffee for a greater flavour. Customers are drawn to coffee shops because they offer the chance to linger and spend quality time there, which raises the price of coffee. Additionally, young people are thought to view coffee use as a form of fashion and a carefree lifestyle. In turn, this causes the demand for coffee beans to increase.

Bharat Coffee Depot, Death Wish Coffee Co., Gold Coffee Company, Hawaiian Isles Kona Coffee Company, Ltd., Kicking Horse Whole Beans, Illycafe S.P.A, Starbucks Corporation and The Coffee Beans Co., are among the well-established players in the global coffee beans market.

The COVID-19 pandemic began in Wuhan (China) in December 2019, and since then, it has spread around the globe at a fast pace. The outbreak has affected economies and industries due to imposed lockdowns, travel bans, and business shutdowns. Food and beverage is one of the world’s major industries facing serious disruptions such as supply chain breaks, technology events cancellations, and office shutdowns as a result of this outbreak. This is further projected to lower the demand for coffee beans products globally

The report includes the segmentation of the global coffee beans market as follows:

By Product

Arabica

Robusta

Others

By End Use

Food and Beverage

Personal Care

Pharmaceuticals

By Geography

North America

US

Canada

Mexico

Europe

Germany

UK

France

Italy

Rest of Europe

Asia Pacific (APAC)

China

Japan

India

South Korea

Rest of Asia Pacific

Middle East and Africa (MEA)

UAE

Saudi Arabia

South Africa

Rest of Middle East and Africa

South America

Brazil

Argentina

Rest of South America

Browse More Information@ https://www.theinsightpartners.com/reports/coffee-beans-market

About Us:

The Insight Partners is a one stop industry research provider of actionable intelligence. We help our clients in getting solutions to their research requirements through our syndicated and consulting research services. We specialize in industries such as Semiconductor and Electronics, Aerospace and Defense, Automotive and Transportation, Biotechnology, Healthcare IT, Manufacturing and Construction, Medical Device, Technology, Media and Telecommunications, Chemicals and Materials.

Contact Us:

If you have any queries about this report or if you would like further information, please contact us:

Contact Person: Sameer Joshi

E-mail: [email protected]

Phone: +1-646-491-9876

A Comprehensive Guide to the GATE Electrical Engineering Syllabus

Preparing for the Graduate Aptitude Test in Engineering (GATE) in the field of Electrical Engineering requires a solid understanding of the syllabus and a well-structured study plan. The GATE syllabus is designed to cover a wide range of topics within the field to assess your knowledge and skills. Here's a comprehensive guide to the GATE Electrical Engineering syllabus:

1. Engineering Mathematics:

Linear Algebra: Matrix algebra, systems of linear equations, eigenvalues and eigenvectors.

Calculus: Limits, continuity and differentiability, partial derivatives, maxima and minima, sequences and series, Taylor series.

Differential Equations: First-order equations (linear and nonlinear), higher-order linear differential equations, Laplace transforms.

2. Electric Circuits:

Circuit Elements: Resistors, inductors, capacitors, ideal independent and dependent voltage and current sources.

Kirchhoff's Laws: Analysis of resistive circuits, nodal and mesh analysis, superposition, Thevenin and Norton theorems.

AC Circuits: Phasors, sinusoidal steady-state analysis, power factor, three-phase circuits.

3. Electromagnetic Fields:

Electrostatics and Magnetostatics: Coulomb's law, Gauss's law, Biot-Savart law, Ampere's law.

Maxwell's Equations: Differential and integral forms, electromagnetic wave propagation, Poynting vector.

4. Signals and Systems:

Signal Classification: Continuous-time and discrete-time signals, periodic and aperiodic signals.

System Analysis: Linearity, time-invariance, causality, stability, impulse response, convolution.

5. Electrical Machines:

Transformers: Single-phase and three-phase transformers, efficiency, regulation.

DC Machines: Construction, characteristics, starting and speed control.

AC Machines: Synchronous and induction machines, principles of operation, characteristics, power factor correction.

6. Power Systems:

Power Generation: Thermal, hydro, nuclear, and renewable sources.

Transmission and Distribution: Line parameters, load flow analysis, economic operation, fault analysis, protection.

7. Control Systems:

Mathematical Modeling: Transfer function, block diagram, signal flow graph.

Time Response Analysis: Standard test signals, steady-state errors, stability.

Frequency Response Analysis: Bode plots, Nyquist plots, root locus.

8. Electrical and Electronic Measurements:

Measurement Basics: Accuracy, precision, errors, standards.

Measurement Devices: Ammeters, voltmeters, bridges, oscilloscopes, transducers.

9. Analog and Digital Electronics:

Semiconductor Devices: Diodes, transistors, operational amplifiers.

Analog Circuits: Amplifiers, oscillators, filters, voltage regulators.

Digital Circuits: Logic gates, combinational and sequential circuits, ADCs and DACs.

10. Power Electronics:

Semiconductor Switches: Diodes, thyristors, MOSFETs, IGBTs.

Converter Topologies: Rectifiers, inverters, choppers, voltage regulators.

11. Electric and Magnetic Fields:

Electrostatics and Magnetostatics: Gauss's and Ampere's laws, dielectric and magnetic materials.

Maxwell's Equations: Integral and differential forms, electromagnetic wave propagation.

12. Signals and Systems:

Continuous and Discrete Signals: Fourier series and transform, Laplace transform, Z-transform.

System Analysis: Linear time-invariant systems, convolution, stability, causality.

13. Control Systems:

Time Domain Analysis: Stability, transient and steady-state response.

Frequency Domain Analysis: Bode plots, Nyquist plots, root locus, compensation techniques.

14. Power Systems:

Power Generation: Thermal, hydro, nuclear, and renewable sources.

Transmission and Distribution: Fault analysis, voltage and frequency control, load flow studies.

15. Analog and Digital Electronics:

Diodes, Transistors, and Amplifiers: Diode circuits, small signal analysis of BJT and FET, feedback amplifiers.

Digital Electronics: Logic gates, combinational and sequential circuits, ADCs and DACs.

16. Electric and Magnetic Fields:

Electrostatics: Gauss's law, boundary conditions, Poisson's and Laplace's equations.

Magnetostatics: Ampere's law, Biot-Savart law, magnetic materials.

17. Power Systems:

Power Generation: Types of power plants, load characteristics, economics of power generation.

Protection and Switchgear: Relays, circuit breakers, fuses, protection schemes.

18. Power Electronics:

Power Semiconductor Devices: Diodes, thyristors, MOSFETs, IGBTs.

Converters: AC-DC converters, DC-DC converters, inverters.

19. Electrical Machines:

Transformers: Construction, regulation, efficiency.

Synchronous Machines: Characteristics, voltage regulation, parallel operation.

Induction Machines: Construction, characteristics, starting and speed control.

German diplomat in Brazil arrested, accused of killing husband

"The cadaver is screaming out the circumstances of its death", says police officer

Brazilian police said they arrested a German diplomat Saturday for allegedly killing his husband at their home in an upscale Rio de Janeiro neighborhood, then attempting to cover up the crime.

Uwe Herbert Hahn, a German consul, told authorities his husband, Belgian national Walter Henri Maximilien Biot, had taken ill Friday night, collapsing and fatally hitting his head, police said.

However, analysis of the body and the couple's apartment in the beach neighborhood of Ipanema found Biot had been severely beaten, they said.

Brazilian media reports said Hahn would not have diplomatic immunity given the nature of the crime. Police did not immediately respond to a request for comment.

Continue reading.

About .io Domains

Okay, so I have a friend who I’ve been working with on a project. Friend made a decision to host on a .io site. I’ve been seeing this crop up a lot, so I was curious: What is the .io domain? Let’s start with the basics: the internet is simply a way to describe how a bunch of devices are connected via a particular protocol (communications and networking is a weird beast). To describe where devices are in this complicated space, hierarchies of domains are used. Top-level domains just mean the highest and, therefore, biggest umbrellas in the Domain Name System (just a system that is used for naming things connected to the internet). If you live in the United States, .com, .gov, and .edu are examples of top-level domains. .io is a country code top-level domain. All this means is that the domain is for use in a particular area. Which area? .io = British Indian Ocean Territory

From Wikipedia: “The British Indian Ocean Territory (BIOT) is an overseas territory of the United Kingdom situated in the Indian Ocean halfway between Tanzania and Indonesia. The territory comprises the seven atolls of the Chagos Archipelago with over 1,000 individual islands – many very small – amounting to a total land area of 60 square kilometres (23 sq mi).[6]  The largest and most southerly island is Diego Garcia, 27 km2 (10 sq mi), the site of a joint military facility of the United Kingdom and the United States. The only inhabitants of the territory are US and British military personnel and associated contractors, who collectively number around 2,500 (2012 figures).[4]  The removal of Chagossians from the Chagos Archipelago occurred between 1968 and 1973.  The Chagossians, then numbering about 2,000 people, were expelled by the British government to Mauritius and Seychelles to allow the United States to build a joint UK/US military base there. Today, the exiled Chagossians are still trying to return, arguing that the forced expulsion and dispossession was illegal.[9][10]  The islands are off-limits to Chagossians, casual tourists, and the media.” [All the hyperlinks and bold and pretty much any formatting I kept from the original text.] Oh, gee golly. None of that looks particularly good. So, there I am, wondering why this domain has gotten so popular. First use seems to be in 1997 by Levi Strauss. Wikipedia gives me a lot of info but this part is particularly useful: “One reason given for the TLD's popularity is that it stands out by being shorter than other TLDs. Also, the .io TLD is less occupied than other TLDs, so it's more likely that a given term is available there.” TLD = top-level domain, so it’s talking about .io here. It’s less occupied so that means lots of catchy site names are available. One example we might all be familiar with is pillowfort, the forerunner after the Great Tumblr Apocalypse of December 2018. The network information center describes .io’s as thus: 1. .io is a new domain and therefore many more names are available. 2. Registrations are accepted quickly and efficiently. 3. Fast access to your domain from anywhere in the world. (source: nic.io as of 12.29.2018). Tagline for .io domains? “the domain powering the next generation of social websites” [copied straight from the site so all capitalization and punctuation is original] Okay, so it looks like it’s popular with start-up companies because of the the shortened TLD (.io) and the availability of names one can use for a site. Granted, I don’t do anything with networking. But, pragmatically speaking, it sounds like this area might not be the greatest at handling a lot of traffic and there might be a lot of DNS (Domain Name System) outages. Which is, um, saying, if too many people try to do too many things on it, there might be outages so no one can use it. If someone is more familiar with the particulars of networking when it comes to generic vs country use domains, please chime in. Okay, but then there’s the part where my own personal ethics/morals/values are kinda at play here: Okay, thanks wikipedia for all that info on the .io domain! I’ll be-- Wait. According to a Gigaom interview with Paul Kane, chairman of the Internet Computer Bureau, the domain name registry is required to give some of its profits to the British government, for administration of the British Indian Ocean Territory.[13] After being questioned as a result of the interview, the British Government denied receiving any funds from the sale of .io domain names, and argued that consequently, the profits could not be shared with the Chagossians, the former inhabitants forcibly removed by the British government.[14][15]  Okay, okay, so don’t take wikipedia’s word for it. Go read the article. Aptly titled: “The dark side of .io: How the U.K. is making web domain profits from a shady Cold War land deal.” It does sound a little biased but I look into Gigaom and they’re a technology research and analysis firm. Our focus is on helping business leaders understand the implications of emerging technologies and their impacts on business, media, and society. I don’t know much about it. I go back to wikipedia. “The blog offers news, analysis, and opinions on startup companies, emerging technologies, and other technology related topics.” I decide to trust the article and go ahead and read it. Written in 2014, not new. It sounds well-researched and historically-grounded. First two paragraphs: “The .io country code top-level domain is pretty popular right now, particularly among tech startups that want to take advantage of the snappy input/output reference and the relative availability of names — Fusion.io, Wise.io and Import.io are just a few examples. But who benefits from the sale of .io domains? Sadly, not the people who ultimately should. While .tv brings in millions of dollars each year for the tiny South Pacific island nation of Tuvalu, and .me benefits Montenegro, the people of the British Indian Ocean Territory, or the Chagos Islands, have no such luck. Indeed, profits from the sale of each .io domain flow to the very force that expelled the Chagossian or Ilois people from their equatorial land just a generation or two ago: the British government.“ So, hmm. Okay. I’m learning a lot about country-code top-level domains today (aka ccTLDs). Looks like the snappy TLDs we’ve been seeing are actually just ccTLDs that companies use to be cute and standout but, yanno, it seems only right to compensate people who live in that area since they’re domain is being used and not by them. Except, the people of the .io domain: the Chagossian. Here’s an article I found of a .io company that learned of the problem with the domain and immediately backtracked This looks like an interesting site (.io domain) but looks dedicated to making sure the way British and U.S. governments are treating the Chagossian are known This article does a great job at connecting modern networking and British involvement in the area. Looks like another perspective talking about why .io is popular with start-ups.

An article from independent.co.uk

So, yeah, my takeaway is that .io is being used by people with money to give to a couple of really bad governments and, surprise, second verse same as the first. I’d be really curious as to what the makers of pillowfort have to make of this as it seems like a lot of start-up companies don’t know this is going on. Mind you, this isn’t some X vs Y thing I’m starting about the superiority of Tumblr (tumblr sucks ass). I just worry about making sure I ethically consume crap or whatever (despite being poor and living in the United States).

send DIFFERENT for a scene from my muse's past that they feel changed their outlook / personality / etc, for the better or worse (For Zoissette! WoL or RP or both!)

Ahhh! Appreciate your patience, finally getting around to my inbox. I do love the asks! And I like this one in particular.

For most ask memes/prompts, I use them to make a quick fanfic, but for this one, I won't, and I'll explain why. The answer to this one is kind of Zoissette's entire story as a Warrior of Light, and I do hope to fully write it out one day.

This has Shadowbringers spoilers past this point, for those sprouts still playing through MSQ. I'll put down a readmore.

So, the moment of Zoissette's history that changed her outlook forever, for the better, was a moment between the end of events at Mt. Gulg, but before the team goes down underwater to catch up with Emet-Selch.

It was a fulcrum moment for her. She knew, at this point, that she was dying. As an arcanist, Zoissette had been tracking her aether balance, and comparing it to the people at Journey's End, and she knows she is somewhere past a lethal dose. Ryne, the Oracle of Light, had barely managed to stabilise her. She is okay for now, but she does not know for how much longer, and when she goes, she will turn into a Lightwarden - and take the First with her, as well as causing a calamity on the Source.

At this point, she is perpetually exhausted. The Light has built up within her, and she is not handling it great. There is a constant thin white film over her vision, like she'd just dunked her head in milk. There is a constant high-pitch ringing in her ears, like the sounds you hear when you first arrive on the First. She is cold, as Light is static, and ice a close element to it. She is cold, perpetually cold, and nothing she does helps her feel warm. She is not as clever, not as smart as she should be, the Light slowing her thoughts. She keeps catching herself having been staring off into space for long enough that she is not sure exactly how much time has passed.

And she is a threat that must be dealt with. And the Exarch's plan, slightly modified, is probably the best bet for a positive outcome. Take all that aether she is carrying, and make sure that when she dies, make sure it is not on the First. Try to pass into the rift between worlds and never come out, maybe, or go back to the Source and Flow to the aetherial sea and hope it can cushion the sudden flow, something, anything, just make sure that when she goes, she does not go on the First.

She sets up to do that. Gets everything ready. Quietly, so nobody tries to stop her from doing what must be done.

Because after all, she is Ishgardian. Is this not a knight's greatest duty? To die for one is a nearly holy duty. To die for an entire world? Duty demands it.

And just as she is about to take that last step, she stops herself.

She loves this world. She loves everyone in this world, she loves everyone in both worlds, in all worlds. And everything in them. And her friends love her, in return. She is cared for. She matters. If her life is necessary to balance the scales, so be it, but she wants to at least make the choice to try to find another answer first. For herself. For her friends. For the world itself, because she wants to keep living in it, keep experiencing it, keep exploring it.

She cares enough to die for it. She cares enough to try to live for it.

And that moment shifts her perspective on her entire life. Up until now, she approached the duty of being Warrior of Light with a kind of kind hearted weariness. A duty that had to be done. She had no choice in the matter, because someone had to do it, and, well, she is someone. She has the Echo, she has the tools, she has the faith of her comrades, she has the skills and abilities to meet these challenges, and so there is no question. She has to do these things, and she does them, but it is a burden.

At the moment when she chooses to live, however, that singular choice recontextualises her entire life up until that moment. In fact, no, she did not have to do any of it. But she did.

Because of course she did.

Because that's who she is.

The world in which she had no choice in the matter, and the world in which she chose it at every opportunity, they're the same world. Because she would always make the choice she thought was right as best as she could, because she would always choose to defend, she would always choose life, she would always choose this path, of her own free will.

And that's huge for her. It turns her life from a burden to a joy. It turns the sorrow of hardship into something else, something which she can endure, which she willingly endures, knowing that even if she dies, even if she falters or falls, her actions might lead to hope for a better tomorrow. And even if it does not, she tried. She chose to take the risk, to make the attempt.

And so she does. She makes the choice to live. And the next day, she heads out with the Scions to the Tempest, to try to find that other answer, where she lives and the First is spared.

And I hope to capture this in my writings one day, in writing her story.

Thanks for the ask!

IIT JEE 2020 Complete Physics Syllabus – Check Here

General

Units and dimensions, dimensional analysis; least count, significant figures; Methods of measurement and error analysis for physical quantities pertaining to the following experiments: Experiments based on using Vernier calipers and screw gauge (micrometer), Determination of g using simple pendulum, Young’s modulus by Searle’s method, Specific heat of a liquid using calorimeter, focal length of a concave mirror and a convex lens using u-v method, Speed of sound using resonance column, Verification of Ohm’s law using voltmeter and ammeter, and specific resistance of the material of a wire using meter bridge and post office box.

Mechanics

Kinematics in one and two dimensions (Cartesian coordinates only), projectiles; Uniform circular motion; Relative velocity. Newton’s laws of motion; Inertial and uniformly accelerated frames of reference; Static and dynamic friction; Kinetic and potential energy; Work and power; Conservation of linear momentum and mechanical energy. Systems of particles; Centre of mass and its motion; Impulse; Elastic and inelastic collisions. Law of gravitation; Gravitational potential and field; Acceleration due to gravity; Motion of planets and satellites in circular orbits; Escape velocity. Rigid body, moment of inertia, parallel and perpendicular axes theorems, moment of inertia of uniform bodies with simple geometrical shapes; Angular momentum; Torque; Conservation of angular momentum; Dynamics of rigid bodies with fixed axis of rotation; Rolling without slipping of rings, cylinders and spheres; Equilibrium of rigid bodies; Collision of point masses with rigid bodies. Linear and angular simple harmonic motions. Hooke’s law, Young’s modulus. Pressure in a fluid; Pascal’s law; Buoyancy; Surface energy and surface tension, capillary rise; Viscosity (Poiseuille’s equation excluded), Stoke’s law; Terminal velocity, Streamline flow, equation of continuity, Bernoulli’s theorem and its applications. Wave motion (plane waves only), longitudinal and transverse waves, superposition of waves; Progressive and stationary waves; Vibration of strings and air columns; Resonance; Beats; Speed of sound in gases; Doppler effect (in sound).

Thermal physics

Thermal expansion of solids, liquids and gases; Calorimetry, latent heat; Heat conduction in one dimension; Elementary concepts of convection and radiation; Newton’s law of cooling; Ideal gas laws; Specific heats (Cv and Cp for monatomic and diatomic gases); Isothermal and adiabatic processes, bulk modulus of gases; Equivalence of heat and work; First law of thermodynamics and its applications (only for ideal gases); Blackbody radiation: absorptive and emissive powers; Kirchhoff’s law; Wien’s displacement law, Stefan’s law.

Electricity and magnetism

Coulomb’s law; Electric field and potential; Electrical potential energy of a system of point charges and of electrical dipoles in a uniform electrostatic field; Electric field lines; Flux of electric field; Gauss’s law and its application in simple cases, such as, to find field due to infinitely long straight wire, uniformly charged infinite plane sheet and uniformly charged thin spherical shell. Capacitance; Parallel plate capacitor with and without dielectrics; Capacitors in series and parallel; Energy stored in a capacitor. Electric current; Ohm’s law; Series and parallel arrangements of resistances and cells; Kirchhoff’s laws and simple applications; Heating effect of current. Biot–Savart’s law and Ampere’s law; Magnetic field near a current-carrying straight wire, along the axis of a circular coil and inside a long straight solenoid; Force on a moving charge and on a current-carrying wire in a uniform magnetic field. Magnetic moment of a current loop; Effect of a uniform magnetic field on a current loop; Moving coil galvanometer, voltmeter, ammeter and their conversions. Electromagnetic induction: Faraday’s law, Lenz’s law; Self and mutual inductance; RC, LR and LC circuits with d.c. and a.c. sources.

Optics

Rectilinear propagation of light; Reflection and refraction at plane and spherical surfaces; Total internal reflection; Deviation and dispersion of light by a prism; Thin lenses; Combinations of mirrors and thin lenses; Magnification. Wave nature of light: Huygen’s principle, interference limited to Young’s double-slit experiment.

Modern physics

Atomic nucleus; α, β and γ radiations; Law of radioactive decay; Decay constant; Half-Life and mean life; Binding energy and its calculation; Fission and fusion processes; Energy calculation in these processes. Photoelectric effect; Bohr’s theory of hydrogen-like atoms; Characteristic and continuous X-rays, Moseley’s law; de Broglie wavelength of matter waves Read the full article

Hormone Pellet Therapy Market Research and Developments 2022 to 2029

The Hormone Pellet Therapy Market At USD XXX Billion by 2029, exhibiting a CAGR of XX% during 2022-2029

Hormone Pellet Therapy Market Overview

The Hormone Pellet Therapy Market: - Global Growth, Trends, And Forecast (2022-2029) By Type (Women, Men,) By Application (Hospitals And Clinics, Rehabilitation Centers, SPAs, Others,) And By Regions report is a comprehensive overview of the market, including a review of its major segments. Alliances are developed after thorough primary and secondary studies. By speaking with industry experts and collecting their data, in-depth market data is produced. The report provides a thorough account of many market factors, including trends, segmentation, growth prospects, chances, difficulties, and competitive analyses. Get a Sample copy of the report:

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List of Key Players Of Hormone Pellet Therapy Market Report:

BioTE Medical, Pellecome, SottoPelle, Pharmacy Solutions, RevitaLife 

 Key Segments Covered in Hormone Pellet Therapy Market: - Global Growth, Trends, And Forecast (2022-2029) By Type (Women, Men,) By Application (Hospitals And Clinics, Rehabilitation Centers, SPAs, Others,) And By Regions

By Type, it is segmented into

Women

Men

By Application, it is segmented into

Hospitals and Clinics

Rehabilitation Centers

SPAs

Others

 Competitive Landscape

Hormone Pellet Therapy Market are showing an increasing amount of interest in creating unique products. In addition, several companies are collaborating, merging, and acquiring one another. In the upcoming years, all of these initiatives are anticipated to drive the global Hormone Pellet Therapy Market to new heights.

 The Hormone Pellet Therapy Market Regional Analysis Covers

– North America: United States, Canada, and Mexico. – South & Central America: Argentina, Chile, and Brazil. – Middle East & Africa: Saudi Arabia, UAE, Turkey, Egypt and South Africa. – Europe: UK, France, Italy, Germany, Spain, and Russia. – Asia-Pacific: India, China, Japan, South Korea, Indonesia, Singapore, and Australia.

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JEE Main 2025 Syllabus: Your Complete Guide.

As the JEE Main 2025 exam approaches, eager engineers must first comprehend the syllabus. The Joint Entrance Examination (JEE) Main is a highly competitive exam administered by the National Testing Agency (NTA) for admission to several engineering institutes in India. A well-defined curriculum allows pupils to carefully arrange their preparation. This is an in-depth look at the JEE Main 2025 syllabus for Physics, Chemistry, and Mathematics.

Physics in JEE Main combines theoretical principles with practical tasks. The syllabus includes a wide range of topics that are essential for comprehending the physical world.

Section A covers theory and measurement, including units, dimensions, error analysis, and physical quantities.

Kinematics refers to one- and two-dimensional motion, vector algebra, and relative velocity.

Newton's Laws of Motion include friction and circular motion.

The work-energy theorem, conservative forces, and power are all related concepts.

Torque, angular momentum, and moment of inertia are all terms that describe rotational motion.

gravity includes the universal law of gravity, gravitational potential, and satellite motion.

Solid-liquid properties include elasticity, viscosity, surface tension, and fluid mechanics.

Thermodynamics: Laws of thermodynamics, heat engines, and Carnot cycle.

Gas kinetic theory includes molecules, degrees of freedom, and the Boltzmann constant.

Oscillations and waves include SHM, damped and forced oscillations, wave motion, and the Doppler effect.

Electrostatics includes Coulomb's law, electric field and potential, and capacitors.

Current electricity includes Ohm's law, Kirchhoff's laws, and electromotive force.

Magnetic effects of current and magnetism include the Biot-Savart law, Ampere's law, and electromagnetic induction

Faraday's laws, inductance, and AC circuits are all examples of electromagnetic induction and alternating current.

Optics includes reflection, refraction, interference, diffraction, and polarization.

The photoelectric effect and de Broglie waves demonstrate the dual nature of matter and radiation.

Atoms and Nuclei include atomic models, radioactivity, and nuclear processes.

Electronic devices include semiconductors, diodes, transistors, and logic gates.

Communication systems include modulation, wave propagation, and satellite communication.

Section B - Practical Skills

Vernier calipers, a screw gauge.

Calculating g with a simple pendulum.

Ohm's law verification and the resistance of a specific wire.

Young's modulus calculated using Searle's approach.

The specific heat capacity of a liquid.

The refractive index of a glass slab.

JEE Main Chemistry is separated into three sections: physical, inorganic, and organic.

Physical chemistry

Some basic concepts in chemistry: Stoichiometry and the mole notion.

The three states of matter are gases, liquids, and solids.

Atomic Structure: Quantum theory and atomic models.

Chemical Bonding and Molecular Structure: VSEPR Theory, Hybridization.

Chemical thermodynamics includes enthalpy, entropy, and Gibbs free energy.

Solutions include concentration terms, Raoult's law, and colligative features.

Equilibrium includes chemical and ionic equilibrium.

Redox processes: Oxidation numbers and balancing redox processes.

Chemical Kinetics: Rate laws and the Arrhenius equation.

Surface Chemistry: Adsorption and Catalysis.

Inorganic chemistry

Elements' classification and periodicity in properties: Periodic table trends.

General Principles and Processes for Metal Isolation: Metallurgy.

Hydrogen: isotopes, preparation, and characteristics.

Groups 1 and 2 of the s-block elements (alkali and alkaline earth metals).

p-Block Elements: Groups of 13 to 18 elements.

D and F-Block components include transition and inner transition elements.

Coordination compounds: nomenclature and bonding.

Environmental Chemistry: Pollution and ozone depletion.

Organic Chemistry: Fundamental Principles and Techniques Nomenclature and isomerism.

Hydrocarbons include alkanes, alkenes, alkynes, and aromatic hydrocarbons.

Haloalkanes and haloarenes: composition, characteristics, and reactions.

Alcohols, phenols, and ethers: definitions, synthesis, and reactions.

Aldehydes, ketones, and carboxylic acids: Synthesis, characteristics, and reactions.

Organic compounds Contains nitrogen: Amines are diazonium salts.

Biomolecules include carbohydrates, proteins, and vitamins.

Polymers: Classification and Properties.

Chemistry in everyday life includes drugs, detergents, and food.

Mathematics

Mathematics in JEE Main necessitates a thorough comprehension of ideas and the ability to apply them to solve problems.

Sets, Relations, and Functions: Set theory; kinds of relations and functions.

Complex numerical operations and quadratic equations.

Matrices and Determinants: Types, Properties, and Applications.

Permutations and combinations: The fundamental premise of counting.

Mathematical induction: principles and applications.

Binomial Theorem: Expansion in generic terms.

Sequences and series are arithmetic and geometric progressions.

Limits, continuity, and distinction.

Integral calculus includes indefinite and definite integrals, as well as area under curves.

Differential Equations: Forming and solving differential equations.

Coordinate Geometry includes straight lines, circles, and conic sections.

Three-dimensional geometry includes directional cosines, planes, and lines.

Vector algebra encompasses vectors, scalars, and vector products.

Statistics and probability include the mean, median, mode

G-Protein Coupled Receptors Market New Developments: Current Industry Trends, witness Highest Growing CAGR, and Upcoming Technologies 2027

G-Protein Coupled Receptors Market Scenario:

According to the latest research report, The G-Protein Coupled Receptors Market share is anticipated to reach USD 4,200 million, growing at a compound annual growth rate of a CAGR of 7.1 % during the forecast timeframe.

The increasing use of G-protein - coupled receptors is expected to boost demand for G protein-coupled receptors in drug disclosure and advancement ways. In the global market for G-protein coupled receptors, there is an increase in government funding for R&D activities. A growing number of receptor-targeted allosteric modulators, biological drugs, and biassed agonists are escalating the need for assays in the market for G-protein - coupled receptors. This, in essence, has resulted in the successful detection of drug candidates that are pharmaceutically important, driving the adoption of these receptors in the process of drug development. In clinical and preclinical trials, the presence of large numbers of licenced medicines and drugs targeting these receptors raises the need for GPCR screening assays in drug production.

The high costs involved in sustaining GPCR cell lines are, however, likely to curb the development of the global demand for G protein coupled receptors. The global G protein-coupled receptors market is currently dominated by many market players. To strengthen their market positions, key players are involved in product launches and strategic collaborations.

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G-Protein Coupled Receptors Market Top Companies:

Some of the eminent players in the global G protein-coupled receptor market are Thermo Fisher Scientific, Inc., Abcam PLC, PerkinElmer Inc., Promega Corporation, Merck Group, HD Biosciences Co., Ltd, QIAGEN, Cisbio, Enzo Life Sciences, and Inc.BD.

G-Protein Coupled Receptors Market Segmental Analysis:

Based on the commodity, assay method, and function, the global G protein coupled receptor market has been segmented.

The market has been split into cell lines, detection kits, cell culture reagents, ligands, and others, depending on the commodity. During the analysis phase, the detection kits category is expected to be the quickest as they are ready to use kits that contain all cells and reagents to conduct functional GPCR assays in live cells, thus driving the creation of the global demand for G protein-coupled receptors.

The global market for G protein-coupled receptors has been bifurcated into functional calcium assays, cAMP functional assays, cGMP assays, GTP gamma S binding assays, ß-Arrestin Functional Assays, internalisation assays, and others based on the assay type. The fastest segment is calcium functional assays, as it has various advantages such as user configurability, ease of calcium flux measurement, thereby driving the development of this segment in the GPCR industry.

Based on application to the cardiovascular system, oncology, immunology, respiratory system, central nervous system, and others, the global G protein-coupled receptors market has been segmented. Like angiotensin II, the coronary system is the central part, and β-adrenergic receptors handle a wide variety of cardiovascular disorders, such as heart failure. About 17.9 million people die each year from cardiovascular disease, increasing the expansion of the market for G protein-coupled receptors.

G-Protein Coupled Receptors Market Regional Overview:

The market has been divided, by region, into the Americas, Europe, Asia-Pacific, and the Middle East & Africa.

Due to the availability of a large number of licenced drugs that target G-protein coupled receptors, the Americas is projected to be the largest market. In the Americas, the demand for G protein-coupled receptors has further branched into North America and Latin America, with the US and Canada splitting the North American market.

Due to the economic growth of countries such as China and India, along with the government spending in the biotechnology and biopharmaceutical industries, growing life expectancy, increasing per capita income and unmet demand needs in the country, the Asia-Pacific region is projected to rise at a significant pace during the forecast period.

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Medical Collagen Market 2021 Investment Opportunity Analysis and Industry Share Forecast 2027

"

Medical Collagen Market is analyzed with industry experts in mind to maximize return on investment by providing clear information needed for informed business decisions. This research will help both established and new entrants to identify and analyze market needs, market size and competition. It explains the supply and demand situation, the competitive scenario, and the challenges for market growth, market opportunities and the threats faced by key players.

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A 360 degree outline of the competitive scenario of the Global Medical Collagen Market is presented by Axel Reports. It has a massive data allied to the recent product and technological developments in the markets.

It has a wide-ranging analysis of the impact of these advancements on the market’s future growth, wide-ranging analysis of these extensions on the market’s future growth. The research report studies the market in a detailed manner by explaining the key facets of the market that are foreseeable to have a countable stimulus on its developing extrapolations over the forecast period.

Reasons for buying this report:

It offers an analysis of changing competitive scenario.

For making informed decisions in the businesses, it offers analytical data with strategic planning methodologies.

It offers seven-year assessment of Global Medical Collagen

It helps in understanding the major key product segments.

Researchers throw light on the dynamics of the market such as drivers, restraints, trends, and opportunities.

It offers regional analysis of Global Medical Collagen Market along with business profiles of several stakeholders.

It offers massive data about trending factors that will influence the progress of the Global Medical Collagen

By Market Players: DSM Symatese Encoll Integra LifeSciences Innocoll GmbH Collagen Matrix Victory Biotech Co., Ltd. Collagen Solutions Stryker Sunmax TaikeBio Trauer BIOT Biology By Type Collagen Powder Collagen Fluid By Application Collagen - based Bone Graft Replacement Wound Dressing Skin Substitute Cosmetic Facial Skin Implants

A detailed outline of the Global Medical Collagen Market includes a comprehensive analysis of different verticals of businesses. North America, Latin America, Asia-Pacific, Africa, and Europe have been considered for the studies on the basis of several terminologies.

This is anticipated to drive the Global Medical Collagen Market over the forecast period. This research report covers the market landscape and its progress prospects in the near future. After studying key companies, the report focuses on the new entrants contributing to the growth of the market. Most companies in the Global Medical Collagen Market are currently adopting new technological trends in the market.

Finally, the researchers throw light on different ways to discover the strengths, weaknesses, opportunities, and threats affecting the growth of the Global Medical Collagen Market. The feasibility of the new report is also measured in this research report.

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Note: This content doesn’t contain all the Information of the Report please fill the form (via link) and get all interesting information just one click in PDF with the latest update with chart and Table of Content. Any special requirements about this report, please let us know and we can provide custom report.

Table of Content (TOC):

Global Medical Collagen Market Overview

Economic Impact on Industry

Market Competition by Manufacturers

Production, Revenue (Value) by Region

Production, Revenue (Value), Price Trend by Type

Market Analysis by Application

Cost Analysis

Industrial Chain, Sourcing Strategy and Downstream Buyers

Marketing Strategy Analysis, Distributors/Traders

Market Effect Factors Analysis

Global Medical Collagen Market Forecast

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Bioidentical Hormones Market Analysis & Trends Report 2026 – Value Market Research

Bioidentical Hormones Market Research Report 2020 offers an industry insight such as profiling, the product outline, the quantity of production, size, the share of the market scenario forecast 2026. This report provides an in-depth study of key trends with segments at the global level. The report evaluates several aspects of the industry through Porter’s five forces analysis, market drivers, and restraints. In addition, the report discusses the key drivers influencing market growth, opportunities, the challenges, and the market share.

The research report also covers the comprehensive profiles of the key players in the market and an in-depth view of the competitive landscape worldwide. The major players in the bioidentical hormones market include SottoPelle, Novartis AG, Orion Pharma AB, Full Life Wellness Center, Advantage Pharmaceuticals, BioTE Medical, Merck KGaA, Pfizer Inc, TherapeuticsMD, Inc., GeneScience Pharmaceuticals Co., Ltd., SUPREMA. This section consists of a holistic view of the competitive landscape that includes various strategic developments such as key mergers & acquisitions, future capacities, partnerships, financial overviews, collaborations, new product developments, new product launches, and other developments.

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A KNIGHT'S DUTY: ☼: how i came up with the idea ☄: what the writing process was like ✄: something i deleted before the final draft ♡: my favorite part ☠: something i found challenging ∞: something i wish i’d done differently

Appreciate your patience as I marinated on this one (and also let a real life thing delay me some). Love this one, though now that I know shotgunning six in one is allowed I will be coming for you inbox next time Lyn

☼: how i came up with the idea

I knew I wanted to write some stories about Zoissette's childhood, to demonstrate why she is Like That as an adult. I also knew I wanted to explore and emphasize that she is a Knight of Ishgard, not a Paladin of the Sultansworn. So, while trying to figure out how to tell that story, I first started with, so what does that mean, exactly? What does it mean to be a knight? And that formed the thesis of the entire piece, the opening sentence, even, was to ask that question - "What makes a knight?" - and the rest of it developed in answering it. I think in exploring the question, I wanted to not only differentiate what made a Halonic Knight different from a Sultansworn Paladin, but also to differentiate from a Dark Knight. They are all very similar archetypes, but the difference in the details is something I find delightful and wanted to explore. You yourself have spoken at length at those paladin archetypes that FFXIV's Dark Knight fills - this piece can maybe be thought of as a compare/contrast to those ideas and ideals, for a different sort of paladin. To use DnD 5e terms, If the Dark Knight is a vengeance Paladin, then I think where a Halonic Knight winds up, particularly with Zoissette, is as a Devotion paladin (the Sultansworn read strongly as a Crown paladin). And that Devotion is to the very concept and idea of duty itself.

☄: what the writing process was like

This was the first longform piece I had written in a long time, possibly in over a decade, and this time I had a new tool I was trying out, Scrivener. This story started as a bunch of chapters that I wrote out, semi-independent of each other, as their were scenes I knew I wanted to have happen, ideas I wanted to explore, and also parts of Zoissette's journey I wanted to document. So, for example, I might write one chapter dedicated to the question of service, another dedicated to showing how Zoissette is clever, another showing ways in which she falls short. As I went along, I shuffled the chapters around - much easier to do and organize in Scriv than in my previous writing, which was 'two dozen open editor documents scattered across my screen and half of them are not saved'. Once I had touched all the ideas I wanted to, I moved and shuffled and adjusted until I had established the story beats where I wanted them to be, and the story had a good rhythm to it, with a main arc and some small subarcs.

✄: something i deleted before the final draft

Fortunately Scriv makes it really easy for me to shuffle stuff I 'delete' off into what I have taken to calling the dross folder. I am pretty good about killing my darlings, and this makes it easier to look through them later, decide maybe if some of them should be resurrected, or recycled in different stories later. That is to say, I can look back and find what got cut pretty easy - it's still in my folders. The biggest cuts had to do with Mother Vauban, and to a lesser extend Father Vauban. They had much larger parts originally, as I wanted to present Mother Vauban as regal and strong and overbearing and Father Vauban as a bit of a milquetoast passive but kind sort of man, and hopefully highlight which traits of each got passed to Zoissette. Neither was working very well, and not really serving the central thrust of what I was going for. Also at the time I really wanted to avoid some tropes around bad parenting, which in retrospect, I maybe should not have been so shy about. In any case, a lot of the interactions with their parents got cut, and I think the piece is stronger for that. And in the end, I think it makes more sense for Zoissette's story as well, in that her parents were probably kind of absent a lot.

♡: my favorite part

You're asking me to pick my favourite child here, I had to read through it again (which to be fair is an activity I delight in) as I thought about this. What I ought to say: the bits where Guillerme and Zoissette and Ement are wrestling with the base ideas and concepts of what it means to be a knight. What I am actually going to say: Zoissette and Ement's meeting in the training room at night when Zoissette isn't supposed to be there. It was a moment that allowed Zoissette to be a bit of a brat and that was a lot of fun to write.

☠: something i found challenging

Actually getting Zoissette -into- training was difficult. I had to do it in a way that felt natural to all the characters, but after the initial setback of her not being allowed to start training. That transition was rough and went through many drafts, before I settled on the current solution of having Guillerme present Mother Vauban with something she would find valuable enough to allow her will on the matter to be overridden - the promise of more training for the first born. Earlier revisions had focused on Mother Vauban too much, and, well, that character was not cooperating with what I had in mind. Fortunately, Guillerme is clever and knew what was going on - and was able to play off the personalities involved a bit. It tied it up neatly, and allowed me to continue on in the direction I wanted.

∞: something i wish i’d done differently

The ending feels sudden and a bit awkward, and I think I maybe should have glided there, let it have more breathing room, and took maybe another chapter to fully coast down. I am not sure how I would do that, though. I re-read it often, but nothing has come to me yet. I hope to solve that before shifting the whole thing over to Ao3, though. Also, I think some of the chapter transitions could be smoother. In particular, I should probably cut or shuffle around the chapter about how knights are addressed. It feels just a touch out of place to me. Thanks so much for the ask, and giving me this opportunity to rant about my writing <3