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What does it mean to uplift and empower underrepresented artists? It entails much more than just giving them a platform. We must dig deeper, and actively spread the word about their work, pay respect to their journeys and their potential, and support their creative intelligence.

This May, in celebration of Asian American Pacific Islander (AAPI) Heritage Month, SuperRare and Drue Kataoka are doing just that. The leading NFT marketplace and artist/technologist/activist and CEO Kataoka have teamed up to create a new exhibition entitled #TheGoldStandard to spotlight the vast contributions of Asian American artists in the digital art world.

A flyer for the #TheGoldStandard exhibition

Running the entire month of May, #TheGoldStandard features 10 artists that help refract the Asian American and global pan-Asian experience through their diverse practices. With this first-of-its-kind showcase, SuperRare is communicating the importance of the diverse populations that make up the NFT ecosystem, bringing Kataoka on board to spearhead the endeavor and drive the point home.

Since 2023, SuperRare has provided a stage for artists big and small. Although it may seem like a highly curatorial platform, SuperRare continues to earn accolades for its community-centric values and ventures aimed at supporting underrepresented artists.

“Asian Americans have played a critical role in turning the best-known digital franchises into household names, but they haven’t really gotten their just due. For the most part, they’ve been really toiling away in the shadows. We even have examples of some of these artists in the show: astonishingly talented, yet not as well-known as they should be.”

Kataoka hopes that #TheGoldStandard will help collectors find extraordinary underrepresented artists, bringing them well-deserved recognition in the process. She acknowledges that the NFT space, in general, could be doing better in both combatting racism and uplifting women and non-white artists, saying that it must not be a lone effort, but a multi-pronged approach.

“On one side of the coin, when we see racism, misogyny, or harassment, it needs to be called out right away,” says Kataoka. “The other side of the coin is: when we see great talent and brilliant artists and creators who are doing important work, we need to call that out too. We need to amplify them for the overall health of the ecosystem.”

While these types of amplification endeavors — even those running for a full month — can seem fleeting in the fast-paced NFT space, Kataoka has taken great care in curating an experience to address the lack of representation of Asian American artists in media, entertainment, and the arts. The #TheGoldStandard exhibition includes pieces minted by digital artists as well as scientists and researchers who are pushing the frontiers of what is technically possible in crypto.

“I spent a lot of time and care in putting this show together. I spent hours with each artist, talking with them and helping them select a piece so that the whole collection goes together and exposes the rich facets of Asian American art and artistic experience,” Kataoka tells nft now. “I really spent the time to figure out which piece would be the strongest foot forward that each artist could contribute to this unique opportunity.

Based on multiple biometric scans of Kataoka’s actual body and featuring various unique details and easter eggs, “Vitruvian Woman” is a marvel in and of itself. Yet the piece also perfectly rounds out #TheGoldStandard, which is named in reference to Asian skin, excellence, and of course, to the roots of cryptocurrencies (and crypto art) as the “new gold.”

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Difference Between 22K Gold And 24K Gold

Gold is a precious metal that has been used for various purposes, including jewelry, coins, and investment for centuries. It is a soft, malleable, and ductile metal that is easily shaped into different forms. Gold is graded by its purity, which is measured in karats (K), with 24 karat gold being the purest form. In this essay, we will discuss the difference between 22K gold and 24K gold.

What is 24K Gold?

The 24K refers to the purest gold in natural form characterized by a bright yellow color. What this means is that there are 24 parts in the gold without any impurities of other metals. The 24K has about 99.9 percent of gold. That said, there is no any gold that can be rated over 24K, i.e. 26k. 24K cold is more expensive than 22K. It is, however, not as durable as the 22K. Instead, it is pliable and less dense than the 22K, and as thus it is seldom used in jewelry and ornament manufacturing. But there are several coins made of the pure gold 24K.

Medical devices and electronic devices are some of the applications of the pure gold 24K. For children suffering from ear infections, a gold-manufactured medical device called the gold tympanostomy tube is put in their ears to enhance middle ear aeration.

A pure gold is a lucrative investment due to its enormous value that has a potential of appreciating. It never loses value or tarnishes. Gold invested for generation will remain in good value the generation finds it, and can be easily converted into cash anytime for lucrative earnings. There is an investment-grade gold investment which serves as a source of future wealth. This is a bullion jewelry investment comprised of gold without any impurities. When the value of gold appreciates, the jewelry also increases in value. But much jewelry today is seldom made of pure gold, but a combination of gold and other metals hence such jewelries are not re- sold at their original costs.

What is 22K Gold?

The 22K gold follows 24K with purity. Its purity is identified by 22/24*100 which gives 91.67% of gold content. The remaining percentage, 8.33%, goes to other metals such as copper, zinc, nickel and silver. Because gold in natural form, 24K, is soft and pliable, any impurities added make it more strong and durable. Jewelries are predominantly made with 22K which is more durable and harder. But 22K is not often used for heavily studded jewelry or diamonds.

22K gold is subject to changes in color based on the abundance of secondary impurities included in it. There could be a pink gold, rose gold, white gold, green gold, etc. A white gold signifies the abundance of alloys such as palladium and nickel, while a green cold signifies the abundance of zinc or silver. If more copper is added, the gold could turn rose or pink or reddish. 24K remains bright yellow in color because there are not alloys in it.

Other countries impose legal requirements on the sale of gold to be described as such. If, for example, a jewelry is printed 0.9166, it is a 22K gold expressed in fineness by dividing 22 by 24 and then multiplying with 1000. Others avoid this confusion by simply printing 22K, 18K or 14K to indicate the purity of the gold.

Differences: 22K and 24K Gold

In terms of appearance, 22K and 24K gold have slightly different colors. 22K gold has a slightly darker yellow color than 24K gold due to the presence of other metals. This color difference is often subtle and may not be noticeable to the naked eye. The color of 24K gold is bright and vivid, giving it a distinctive appearance.

Another difference between 22K and 24K gold is their weight. 22K gold is denser than 24K gold since it contains a higher percentage of other metals. This means that a piece of 22K gold jewelry will weigh more than the same size piece of 24K gold jewelry. This weight difference is often negligible, but it can be a factor to consider when buying gold items.

In terms of care and maintenance, 22K and 24K gold require similar levels of care. Both types of gold can be cleaned using a mild soap and water solution, or with a commercial jewelry cleaner. However, since 24K gold is more prone to scratching and damage, it requires extra care to prevent damage to the surface.

The following table highlights the major differences between 22K and 24K Gold −

Characteristics

22K Gold

24K Gold

Gold content

22K is the second most pure with 91.67% of gold and other alloys contributing the remaining percentage. These alloys could be nickel, zinc, silver or copper depending on desirable results.

24K is the most pure gold in natural form containing about 99% of gold. Such gold is soft and pliable and can be molded into desirable shapes.

Color

The 22K gold is, however, not easy to discern as the color depends on the alloys included. It could be pink, reddish, rose, green or white gold. It could, therefore, be difficult to spot the 22K gold if it has not been printed.

24K is easy to discern with its bright yellow color.

Price

22K gold is cheaper than 24K gold.

24K gold is more expensive than 22K gold simply because of its purity of 99% gold.

Strength

Gold in its purest form is soft and pliable. The addition of alloys in 22K gold makes it more durable and harder. Therefore, 22K has more strength than the 24K hence it is used predominantly in ornaments and jewelries.

24K gold has less strength as compared to 22K gold.

Conclusion

In conclusion, the main difference between 22K and 24K gold is their purity level. 22K gold is 91.67% pure and is more durable and less expensive than 24K gold. 24K gold, on the other hand, is 99.9% pure and is the most valuable and expensive form of gold.

While 22K gold is commonly used in jewelry, 24K gold is often used for investment purposes. The color and weight of 22K and 24K gold are slightly different, and both types of gold require similar levels of care and maintenance. Ultimately, the choice between 22K and 24K gold will depend on the individual.

3 Ways To Unlock Keyword Gold

Keyword research is often thought of as the keystone of SEO and provides the foundation for many SEO strategies. After all, how can you optimize your website for search engines if you don’t know what people are searching for and what results pages your site populates?

Whether you’re new to SEO or you’ve been doing it for years, chances are that you perform keyword research on the regular.

So the question is – in what ways can you make your process even better?

Regardless of where you are in your SEO journey, we’re willing to bet you’ll find a new tip here that will help you step up your game or eliminate an unnecessary step in your workflow.

The following are three ways to add efficiency and effectiveness to your keyword research today and discover some golden opportunities.

1. Go For Quality, Not Quantity.

Start here:

Identify your SERP competitors.

Analyze keyword overlap.

Determine keywords within striking distance.

So, what do we mean by quality?

While quality is subject to your business objectives, generally speaking, you’ll be looking at how you can be more visible in search results compared to your actual business competitors, or whoever is currently ranking on the first page for the keywords and topics that you have a solution for. So, you can start there.

Understand who your true SERP competitors are (those unexpected players who show up in results for your target keywords) before you make any assumptions. Assess them by the percentage of keywords you share and/or have overlap with. At Moz, we offer a quick and easy metric for this – try stack ranking by Rivalry score.

Next, compare those top competitors in a keyword gap tool to identify the keywords where you’re within striking distance of page 1.

2. Automate Your Grouping Process.

A list of relevant keywords is a great start, but you can end up with a long list of very similar phrases that naturally overlap. To drive actionable SEO and content strategy, grouping similar keywords together is important to understand how many pieces of content you need to create or improve.

Identify your seed keyword.

Filter by source type.

Group similar keywords.

The process of grouping keywords allows you to identify keywords that may have a similar intent.

For example, someone searching for “apple pie recipes” may have the same search intent as someone searching for “how to make apple pie.” By grouping these keywords together, you may be able to identify opportunities to target multiple keywords at once.

Grouping keywords manually can be labor intensive, depending on how many keywords you’re working with. If there’s a tool that simplifies the process you’re currently doing on your own in Excel, use it! There’s a reason SEO software exists, after all. The more time you can cut down on manual labor, the more clients you can support, and the more time you can spend on other SEO tasks.

Rather than sifting through your giant ambiguous list of keywords to form groups of alike keywords, use a keyword grouping tool to help you zero in on the types of keywords and phrases that will help your content team deliver.

Moz’s Keyword Explorer makes this step as easy as pie with the keyword suggestions filtering functionality. After entering your seed keyword to return suggestions, filter from a list of suggestion types, including keywords that ‘are questions’. You can then group by varying degrees of lexical similarity and volume range to really hone it in.

China Stays Ahead In Asian Stealth Race

Apart from its Russian engines, the J-20 is completely made and designed in China. And even then, future J-20s will be flying with a more powerful domestic engine, the WS-15, by 2023. Andreas Rupprecht

ATD-X

Japan recently made news by showing off the X-2 Mitsubishi Heavy Industries Advanced Technology Demonstrator – Experimental (ATD-X),a full-scale test model of a domestically designed fifth-generation fighter, unofficially called ‘ShinShin.’ But on Jan. 18, China demonstrated it is well past demonstrators. At the Chengdu Aircraft Corporation factory in Sichuan, China it began the test flights on “2101”, the first production J-20 stealth fighter.

2101 Takes Flight

“2101” will be the first J-20 stealth fighter to enter Chinese service. Its yellow primer will be painted over with darker radar absorbing materials once its handed over to the PLAAF.

“2101” is the first airframe in the inaugural production batch of J-20 fighters. With the first J-20 squadron expected to be fully delivered by year’s end, the China Flight Testing Evaluation regiment will being developing operating procedures, tactics and technical proficiency to bring the J-20 to combat readiness. At this pace, it is expected that in 2023-2023, the Chinese Air Force will have its first operational stealth fighter squadron.

Proudly Made in China

Apart from its Russian engines, the J-20 is completely made and designed in China. And even then, future J-20s will be flying with a more powerful domestic engine, the WS-15, by 2023.

The J-20 fighter is the showcase of modern Chinese military technology. While it currently relies on Russian AL-31 series turbofan engines (the powerful domestic WS-15 engine will enter service in 2023-2023), everything else on the J-20 is Chinese; its stealth coating, infrared sensor, powerful AESA radar, are all domestically made.

Mighty Dragon

Why Giving Blockchains The Ability To Talk To Each Other Is A Big Deal

There are thousands of blockchains, all out to improve the way some system works: international money transfer, medical record-keeping, supply chain-tracking, etc. Here’s the catch, though: most of them can’t talk to each other, making their data useful mostly within their own ecosystems.

Every blockchain works differently, and there currently isn’t a set protocol that can reliably transfer data between multiple chains. That’s likely to change, though, as there are projects currently working on everything from chain-to-chain transactions to an “internet of blockchains.” If they’re successful, the way that data moves around the world and how we control it could change on many levels.

What’s wrong with isolated blockchains?

Bitcoin, Ethereum, Ripple, Monero, Cardano, and all the other blockchains/cryptocurrencies are like islands, each of them with their own government, ecosystem, and population. The islands can see each other but don’t have any way to reach each other. Even if they could get across, though, they all have different languages and different writing and organization systems.

If an intrepid traveler made it to a new island and fell ill, that island’s hospital would need to create a new medical history for him, since even if he had happened to bring along his medical records, the new hospital wouldn’t be able to read them and port them over.

That’s why blockchain interoperability is one of the most important issues in the space today. Blockchains are really just a new kind of data storage, and if that data can’t move around freely between systems, it becomes exponentially less useful.

Imagine three banks, each on a different blockchain ecosystem, unable to directly transfer funds and customer information. That’s pretty inconvenient. Third-party centralized and decentralized exchanges do make it possible for people to easily go between cryptocurrencies, but coordinating smart contracts, decentralized apps, direct chain-to-chain transactions, and reliable data transfer is a lot trickier.

What can we do with interoperable blockchains?

In its current form, the Internet lets you transmit any kind of data you want as long as you use standardized protocols, but what happens on either end of that network is up to the sender and the receiver.

Connected blockchains would look similar: a network that takes data from different blockchains, gets it to behave in a manageable way, and delivers it, not interfering with how either blockchain actually functions. This opens up a lot of possibilities:

Much like Facebook/Google login, we could have our identities stored securely on a blockchain and use them to create online and offline presences.

Allowing easy access, conversion, and transfer of data that would otherwise be fragmented and difficult to use, like disconnected supply chains or widely-distributed research data.

Creating conditions on one chain (such as a car insurance blockchain) that can read and respond to events on another chain (like a police report blockchain or an auto shop’s financial system).

Establishing a truly decentralized internet-of-things network, taking tons of inputs from different hardware and data systems and seamlessly converting between them as needed. Set your smart home to buy its energy in real-time from the cheapest green energy source available – maybe your neighbor’s solar panels are selling some excess power!

What’s the solution?

We need to build bridges, hire translators, and figure out ways to get some very different systems to play nice with each other. The technical challenges here are massively complex, but we have a few main options:

1. Blockchain platforms/sidechains: There’s no shortage of projects that promise more or less interoperability if you build on their infrastructure, but generally, the catch is that you only get to connect to the other blockchains that are tapped into the same system. Given how many platforms are out there now, there’s very little chance that every project will fall in line behind just one or two of them. This is like building a new island with one system and telling everyone to move there.

2. Open protocols: This is essentially how the modern internet works. Everyone has generally agreed that there’s a good way to connect things, with TCP/IP, DNS, HTTP, and a lot of other standards being universally implemented and used. Since most blockchain projects aren’t likely to agree on and implement a single communication standard, the best way to make this work would be by implementing an internet-like communication layer that any chain can tap into and send data over.

Projects like Interledger are working on this right now. This is like building a bridge network and establishing trade agreements and a common second language between the islands.

3. Multi-chains/metachains/parachains/bridge chains: These are probably the most popular solution in development right now, with projects like Polkadot, Cosmos, Aion, ARK, Block Collider, and many others all throwing their hat in. Though the approaches differ quite a bit, the general idea is that you can build relays or bridges from each individual blockchain to some sort of hub, which is itself a blockchain.

The blockchain that initiates the action interacts with the hub, and the hub then interacts with the target blockchain, creating a sort of communication layer. This may turn out to be the most realistic solution, since it doesn’t require much from the blockchains themselves.

This is like building transportation hubs between the islands (airports, docks, etc) that come equipped with travel services designed to help visitors navigate unfamiliar territory.

Not just for blockchain geeks

While the technical side of blockchain interoperability is a topic that only a few people will really get excited about, the long-run implications are far-reaching. After all, the internet was also a bunch of islands in the beginning – before TCP/IP was standardized in the 1980s, there was no single protocol sending data around, and it took a while for anything resembling the modern unified internet to emerge out of the fragmented intranets.

Blockchains aren’t as visibly revolutionary of a technology, but they’re already changing the way we think about data, both on the macro and on the personal level. As debates over data handling and control heat up, we may see a lot more user-friendly blockchain-based technologies popping up with solutions to streamlining our digital existence.

Image credit: Sky Islands, Palau archipelago

Andrew Braun

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Web’s Gatekeepers Embrace Drm For Next Html5 Standard

The Worldwide Web Consortium (W3C) formally accepted a big change recently that could affect future Web standards—a decision that will either change nothing or destroy the Web forever. It all depends on your point of view.

On Monday, the W3C’s HTML Working Group said it would continue working on digital rights management for video for possible inclusion in the upcoming HTML 5.1 standard. The W3C is the group charged with defining guidelines for Web technologies.

The end result could mean that one day, companies like Amazon and Netflix won’t need to rely on third-party plugins like Flash and Silverlight to deliver copy-protected movies and TV shows to your browser. Instead, these companies will be able to use a capability built right into the fabric of the Web itself called Encrypted Media Extensions (EME).

“DRM is a pain to design, does little to prevent piracy, and is by its nature, user-unfriendly.”

For users, it means no more needing to download a special plugin to view video content. Just fire up your browser, log in to your favorite online streaming video provider, and go. (Assuming providers embrace EME, naturally.)

The inclusion of EME in HTML 5.1 seems to make a lot of sense for the modern Web thanks to the popularity of video streaming services such as Amazon, Hulu, Netflix, and chúng tôi There’s just one problem: Current Web standards favor complete openness and don’t allow for major corporations to prevent their content from being copied.

“Most people would agree that individuals and institutions in general should have the right to limit access to proprietary information, or charge for access to content they own,” W3C CEO Jeffrey Jaffe wrote in May when HTML-based DRM was first publicly proposed for acceptance by the HTML Working Group. “Against this backdrop, the W3C Director [Tim Berners-Lee] has established that work on content protection for the Web is in scope for the HTML Working Group.”

The EFF’s slippery slope

The EFF is also concerned that even text and images in HTML could one day be locked down. In other words, no more cut-and-paste functionality online making it much harder to do research on the Web.

The EFF doesn’t necessarily think all of these usage nightmares will become a reality, but the group does wonder how the W3C can refuse other DRM schemes now that the proverbial barn door has been opened.

Digital dystopias aside, if you’re on the side of the EFF and hate the idea of copy protection, there are a few things to keep in mind. The W3C is not a standards body in the traditional sense. The group has no actual power to enforce its decisions on Websites and browser makers.

Generally, it’s wise to play along with the W3C’s guidelines since everybody else is (at least these days), but Web purists are free to disregard any of the group’s recommendations. In fact, there is already a grassroots push to try and get Mozilla to categorically state it won’t include the EME specification in Firefox.

Given that Apple, Google, and Microsoft—all of whom sell video services themselves—are sure to include EME in their browsers, however, it seems unlikely Mozilla would hold out for long even if it did take a stand.

Beyond the true power of the W3C, there is a more important thing to realize: DRM is silly. It simply doesn’t work. The biggest problem, as author and activist Cory Doctorow has pointed out on many occasions, is that for DRM to work you have to give both the encrypted content and the power to decrypt that content to your potential attacker.

You can’t watch Netflix videos or a Blu-ray disc, after all, without the ability to get past that DRM. And once you’ve given someone the keys to your digital kingdom, it’s only a matter of time until a determined hacker figures out how to crack your copy protections.

Netflix isn’t immune from foiled copy protections either. The company’s exclusive DRM-laden, online-only content including Arrested Development, House of Cards, and Orange is the New Black all appeared on torrent sites within hours of going live on Netflix. Even if hackers didn’t actually crack Netflix’s copy protections and only used screen recording software, it proves there’s always a way to get around nearly any copy protection scheme.

As the EFF notes “DRM is a pain to design, does little to prevent piracy, and is by its nature, user-unfriendly.”

So take heart, friends of the open Web: It’s highly likely there will always be a way around any potential anti-copying measures built into the fabric of HTML.

As for the inclusion of EME, well, as long as copy protections stop at premium video services, it seems unlikely that many people will mind or even notice.

Whether that’s a good or a bad thing, I’ll leave to you.

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