The greatest job of all time

The greatest jobs of all-time: mechanical engineering, the art of manipulating and designing machines.

The question is, are there any jobs in this field that are better than mechanical engineering?

And, is it possible to be a great engineer if you’re not a great mechanic?

This article was originally published by TechRadar and is reprinted here under a Creative Commons license.

Read more stories about technology, engineering and employment

Hellcat’s Hellcat V2.0 is finally here

The Hellcat is a military vehicle developed by the U.S. Army for use in the Army’s Combat Engineer Program.

Its name refers to the engine that powers it.

The engine has been in production since 2008 and has been around for a while, but the program has been plagued by a series of problems.

The first problems began in 2010 and included the vehicle being unable to start, overheating and exploding.

In 2015, a new model was unveiled that was designed to fix the problems, but in a way that made it less reliable.

The new engine was supposed to be in production by the end of 2019, but it was delayed by two years.

This has been attributed to issues with the assembly process, which involves assembling a tank from a stripped chassis and then placing it in a vehicle that was assembled using an assembly line.

The vehicle then goes through a series “slicing” tests to ensure the vehicle is stable and functional.

Why a new bioengineering job at a biomedical engineering school is good for your health

The first thing that comes to mind when thinking about the potential benefits of a new biomedical engineering job at an American university is the sheer number of jobs it could lead to.

According to the Bureau of Labor Statistics, more than 20,000 biomedical engineering and engineering-related jobs are being created each year, with an average of more than 8,000 per year.

A recent analysis from the National Association of Colleges and Employers estimated that by 2025, the number of biomedical engineering positions could reach more than 28,000. 

According to an article in the American Medical Association Journal of Medicine, the main reasons why there are so many biomedical engineering programs at American medical schools are a lack of qualified applicants and a lack. 

The article states that the American Academy of Medical Pediatrics has issued an opinion stating that the number and quality of applicants for biomedical engineering has not improved significantly over the past several decades and that the profession should be more diverse, since it has historically been a predominantly white, male profession. 

In a 2014 report titled “Biomedical Engineering: How to Prepare and Train for the 21st Century” published by the American College of Medical Directors, Dr. Mark Osterholm, a professor of medicine and director of the medical school’s program in bioengineering, stated that a shortage of biomedical engineers would hurt the medical community as a whole. 

“A shortage of highly skilled biomedical engineers is a problem for the health care workforce and the entire health care industry,” he said.

“Our graduates need to be able to compete on a level playing field, and a shortage will hamper that.”

Osterhamm wrote that there is a lack in biomedical engineering candidates from non-Western countries. 

Despite the lack of diversity in the biomedical engineering workforce, the health profession is continuing to grow in its numbers.

In a study published in March of this year, the Health Affairs, a national professional organization representing more than 6,000 health care professionals, reported that the total number of new members of the profession increased from 4,839 in 2010 to 6,091 in 2020. 

As a result, according to a study conducted by The American Association of University Women, more women are pursuing a biomedical career in the United States, but the majority of new candidates are men. 

When it comes to hiring more women in biomedical careers, the University of Maryland’s Center for Women in Medicine published a report titled, “Women in Biomedical Engineering” that indicates that women make up about 17 percent of biomedical graduates, while the average age of those graduating from medical school is 38. 

Additionally, women are underrepresented in science and technology, as well as in leadership positions. 

A recent survey of more 10,000 physicians and health care workers found that the majority believe that women have less access to careers in science, technology, engineering and mathematics (STEM), or STEM fields than men.

In a recent article published in the journal PLOS ONE, Drs.

Sridhar Subramaniam and Katherine B. Schuster wrote that a lack to recruit female applicants for certain positions has led to the shortage of qualified female applicants. 

Their study found that for the 2016-2020 period, the median age of women applying for medical school positions was 39 years, and the median number of medical school applications for female applicants was 7.3, compared to 9.4 for men.

The authors noted that the lack to hire qualified women in medicine is related to a number of factors, including the lack that medical schools have access to a large pool of qualified medical students. 

This shortage of women in medical school, coupled with the lack in diversity in medical training has made it difficult for women to become involved in the profession, Dr Subramannam said. 

While the number one reason for the shortage in biomedical training is the lack and diversity of applicants, another reason for women’s lack of involvement in biomedical science is the cultural stigma surrounding their careers. 

Dr. Schusters said that a study done by the University Of Minnesota’s Center For Women In Medicine found that a large percentage of female students do not feel welcome at medical schools because they do not conform to the stereotypical image of a medical doctor. 

Because of this, she added, the stereotype of the female medical doctor is more pronounced than other types of medical graduates. 

However, Dr Schuster said that women can still be successful in medicine. 

 “Women have been successful in this field for many years, so it’s just about understanding that there are barriers and it’s a lot easier to overcome barriers that we don’t understand than to overcome those that we do,” she said.

For those seeking to take up the career path of a physician, there are a few areas where they can improve. 

For instance, Dr Samara Chai, a former biomedical engineering professor at the University at Buffalo, said that she has found that women are able to take advantage of the opportunities that have been

LTS: Intel says 3D XPoint will be available to customers by end of 2019

Intel is making 3D-XPoint available for a limited time starting on September 10th, 2018, and it is likely that the technology will be made available for purchase in a similar fashion to the way it is available in the desktop and mobile world.

Intel is a market leader in 3D chips, so it is not surprising that the company is pushing 3D technology.

Intel’s chip designers are known for their design expertise, and the company has long been working to deliver 3D processors.

The company announced its plans to make 3D chip technology available in its Core i-series chips last year.

At the time, Intel stated that the Core i5 and i7 chips would be able to process 3D graphics and video.

Intel has not yet confirmed when 3DX XPoint would be available, but it could come as soon as September 10, 2018.3D XPOINT is based on the new Intel Core i7-8700K processor, and while that processor was announced in June of this year, the first batch of processors will likely be made in September 2018.

The new chips have been designed for a number of different markets, including automotive and automotive parts, but Intel has also said that they will be able process 3d graphics and audio.

Intel has been working on the 3D processing capability for its Core microprocessors since 2011, and has since released the first-generation of the microprocessor that has been the reference for its desktop and server processors.

It is the first time that Intel has made a 3D processor available to OEMs and manufacturers.

The new Intel chips will come with a slew of new features, including improved energy efficiency, enhanced memory performance, and more.

They will also have higher clock speeds and better overclocking capabilities.

Intel is also introducing a new version of its iGPU that will use Intel’s new chip design, known as the Skylake architecture.

The Skylake chip is a 10-nanometer process and it will be the first new processor from Intel to support GPU performance for a while.

Intel already announced that it would be releasing its first graphics processor, the Haswell-E, in March 2019.

Intel will be launching three new CPUs this year that are based on Skylake, including the Core M-series processors, Core i9-7900X and Core i3-8550K chips.

How to Build an Automated Wallpaper Engine that Automatically Scales with Boxer Engine Salary

What is an automated wallpaper engine?

An automated wallpaper generator is a program that automatically scales with the number of images displayed in the browser.

The program automatically takes into account how many images are displayed and the number the browser needs to display.

The image resolution is the number that the browser displays before scaling the browser up or down, and the quality of the image is what determines the number displayed.

A screenshot of a plugin that uses the plugin API can be found here.

This plugin does not need any external software or server infrastructure, and it can be built on top of the browser itself.

However, you can also run a script on your server to load images for your plugin.

Here are some examples: WordPress Plugin plugin_example.php Load the image file for this plugin in the root directory of the website.

If the file does not exist, it will be created.

You can then use this plugin as a base.

For example, if you want to generate a wallpaper for a page, you might: Use the image of a wallpaper from WordPress, like this: <?php function wallpaper_generator($image) { $image['background_image'] = $image; $image_image_url = $images['images_url'] .

” / “; } function load_images() { return (function () { return WordPress::load_images(); }); } Here, the script will automatically generate a background image that is 50% smaller than the one it expects, and will display the full image size in the bottom right corner.

The script also uses the WordPress::generate_img_url PHP function to fetch a URL for the image you just created.

The load_files() function returns a PHP object with a hash of all the images you want the plugin to display, as well as the PHP address for the plugin’s server.

It also uses PHP::url_for to return the URL of the URL the plugin will redirect to.

The WordPress::get_url() function gets a PHP array of the full path to the WordPress plugin’s directory, and returns the URL from the array.

Here is an example of a function to generate an image for a site: function generate_image($image_filename, $size) { if (empty($image[‘width’])) { return “”; } $image = WordPress::Image::new(file_get_contents($image)); $size = $size.width; $size_size = “”; $size += 1; return $image->get_size(); } WordPress::image::generator()->generate(function(wp) { return new WordPress::Generator($wp); }, function() { WordPress::run_script(function() { $url = “http://www.google.com/images?q=images&hl=en&ct=l&oe=utf-8&usg=AFQjCNXgjfzJLkfC0ZJWgCjYWQ==”; return “Image $url;”; }, $url); }); The plugin can also be written as a standalone script.

The simplest way to write it is to use the WordPress API: How to Build a Automated WordPress Plugin body { background: #f00; } This will create a WordPress plugin that will automatically load images that have a width of 10% or less, but that also have a height of 20% or more.

For more advanced WordPress plugins, there is also the plugin_examples.php file, which shows you how to use a plugin’s plugin API to generate your own.

The plugin_generators.php script can be written in PHP, too.

If you are interested in developing your own plugin, please take a look at the WordPress Plugin Development Kit.

The Plugin Developer Guide can help you learn how to write plugins for your site, as it can explain how to create a plugin with WordPress, a PHP framework, and PHP code snippets.

When the Volkswagen diesels are gone, what’s left behind?

Volkswagen’s diesel diesels, V10s and e-golfs are the most widely used vehicles in the world, and the only ones that are still around today.

The company has sold more than 100 million vehicles worldwide.

But the last diesel to be produced was the V8s that were first used in the V6 era of the V10 engine.

The Volkswagen Group sold the last V8 in 2000, and that was a very different engine from the one that would be used in VW’s diesel cars for the next half century. 

The last V10 was produced in 2009.

The new one has been on the market for almost a decade.

And now, a new batch of diesel diesel engines is coming on the scene.

These are the e-Golfs, and they are powered by the same V10 that is used in Volkswagen’s most popular models.

The latest e-Polfs have the same basic V10 engines as the V1s and V10.

However, this time around, Volkswagen has developed a new diesel that is lighter, has a new, more efficient exhaust system, and uses more CO2.

And these engines are going to be the best sellers in the future. 

“The new engine is the first diesel with a bigger displacement, a wider cylinder head, a lower compression ratio, and a longer duration of the fuel cycle,” says Alain Rolf, the vice president of product development and technology of Volkswagen Group North America. 

What are the engines doing in these new diesels?

The new engines are based on the same 3.6 litre V10 as used in its e-Classes and eGolf cars. 

But instead of using a turbocharger as it does in the eGylons and ePolls, VW is using a turbine engine as the base of its engine. 

That turbine engine produces the same amount of power as a normal diesel engine.

And the turbine engine is more efficient than any of the engines that were used in earlier generations of the engine.

That means that the power output of the new engine in a diesel car will be significantly lower than that of the diesel engines that preceded it. 

However, the new engines also have a higher compression ratio.

This is because VW has also developed a bigger turbine to improve the power density of the combustion chamber. 

As a result, the engine is much more efficient. 

So how does the new diesel differ from the older engines? 

The new diesel engine has a very large displacement.

It has a displacement of about 4.0 litres. 

This means that it is a little smaller than the 3.5 litre engine that was used in e-Cars and eTrucks, and it is bigger than the 2.4 litre diesel that was first used for the VW Tiguan.

The displacement of the turbine engines is also slightly smaller. 

Compared to the previous engines, this new engine has an intake manifold, a compression manifold, and two exhaust manifolds. 

It is also made of a titanium alloy that has a higher melting point than steel. 

These differences mean that the new diesel engine is lighter. 

At about 1,500kg, it is lighter than the V2 diesel that came out in 2007. 

For comparison, the V7 engines from 2006 to 2008 weighed about 1.6 tonnes.

The VW Tiguana weighed almost 2.5 tonnes. 

Will the new e-Eco cars ever replace the eEco and eEgas cars?

We will see. 

A diesel is still a very important part of Volkswagen’s sales strategy.

It is a large part of VW’s sales mix, and as the VW Group expands, it will continue to make diesel vehicles that are popular with its customers.

But what does this mean for e-eco cars?

The answer is that there are still a few key differences between diesel and eeco cars.

Volkswagen will continue selling eEcos.

That is, it still plans to make the diesel eCars that it will introduce to dealerships this year.

But these eCares are still made by Volkswagen. 

In addition, e-e-cars are still considered “subcompact” cars, meaning that they have no trunk space.

The eEcar, for example, weighs just 3.9kg and has no trunk. 

VW’s e-cars will be more fuel efficient.

The fuel economy of the eCarts is expected to increase by about 20 percent. 

Additionally, there will be no diesel e-fares for the 2017 model year.

The diesel eEcars will remain, but they will be lighter, and their range will also be reduced. 

Is the VW e-carts going to become as popular as the eEurocars?

There are still some key differences that need to be addressed.

First, the ePoces

Engineer repairs a car, gets into trouble, wins big

The engineer who built a new car is out of work and the guy who repaired it lost the money to pay for his plane ticket.

The story of the repairman and his winnings is a tale of the modern era, but it has much to do with the advent of the internet, which made it easy for people to share stories of their own.

The car he built has a history that dates back more than a decade.

A young man named Mark had been working as a mechanic at a dealership when a car went wrong, damaging the engine and causing the car to fall off the road.

He decided to build a car to repair the engine, but the owner of the dealership wanted more money.

Mark, who worked in customer service, told the owner that the car had been in a crash a few years before, and that he would have to go find the owner to get the money.

He had to go to the dealership’s garage, which was in the same building as the dealership.

When he arrived, he found a pile of cars, some old and some new, stacked on the floor.

“I went in there and I pulled out my computer and I started reading it and I said, ‘Oh, my god, there’s millions of dollars on the ground,'” Mark said.

Mark says he found the money on the desk of the owner, who told him he had no choice but to pay the money for repairs.

“I said, well, what if I pay you to have your car repaired?”

Mark said, “and I said I’ll give you 50,000 dollars if you can come and fix this car.”

When Mark and the owner got to the garage, they found a huge pile of money.

“They were trying to find out what was on the other side of the car, and they were looking for a hole in the hood,” Mark said.

“So they pulled it out of the hood and said, you got to get this car fixed,” the owner said, laughing.

“He said, oh, my God, you’re not going to do it for free.

And I said well, okay, you don’t owe me anything.

I’ll pay you $50,000 and you can go out and fix it yourself.”

Mark and the owners got into a fistfight, Mark says, and after that, he said, hey, if I don’t fix this, I’m going to be homeless and I’m not going back to the car dealership.

“So Mark got into work and made a new one.

But it wasn’t a simple task.

The engine wasn’t working properly.

The car was on fire, and the car was totaled.

Mark had to rebuild the engine again, but with an additional $150,000 in the bank.

The mechanic had no money for that, so he took the money and spent it on buying a plane ticket and a hotel.

Mark and his wife, Kathy, were able to make it back to their old job.

They got to spend time with their daughter, who was now in college.

But when Mark returned to work, he realized that he had to get out of his old job as well.

Mark said he didn’t think it would work out, but he did know that he was going to have to find some other job.”

And it was like, oh my God! “

And so we went and we found a trucking company that I had heard about and we went in and we picked up the truck and we drove it out there and we got the trucking job.

And it was like, oh my God!

I’ve got no choice.

So we drove the truck out there.”

That job paid $60,000 a year.

Mark says he was getting $10,000 more a month, but that he didn.

He had to find another job.

So Mark worked for a year, until he was laid off.

“So I had a year of work that was paid with no pay,” Mark told me.

Mark has since found another job and he and Kathy have made it to retirement.

But he’s not retiring just yet.

He has a new job that he’s looking for and it’s a lot more demanding.

The other day, Mark had a talk with a couple of people in the office.

“There’s a guy on the payroll who is a financial planner, and he told me that he wants to hire a new guy,” Mark says.

“That guy said, look, if you want to work here, I can’t get a job for you.

I need someone who has a good reputation and someone who can work on your behalf.””

Oh, no, no,” Mark responded.

“This is my last day here.

This is it.

I’m leaving.

I don, I don’ t have a choice.

I can either do this or I can stay here and I’ll be working my ass off.”

But he did have one last

IBM announces first-ever ‘cloud-based, machine-learning-powered’ Watson for healthcare

IBM today announced that it is the first healthcare software company to build a machine-learned, cloud-based Watson system that can analyze patient data and perform medical diagnoses.

Watson is designed to be a fully integrated, cloud based platform for diagnosing and treating disease, with no separate data or storage for patients.

Watson will be developed by IBM Research and IBM Healthcare Solutions.

“We’re proud to be at the forefront of healthcare, and we think Watson is a game-changer,” said Dr. Daniel Lippmann, vice president of Watson at IBM Research.

“The cloud- and AI-driven revolution is here, and Watson is the next big thing.”

Watson will provide healthcare professionals with the ability to diagnose and manage a variety of complex conditions, from cancer to heart disease.

The software will be built to work with IBM’s IBM Cloud platform, which enables IBM to scale up healthcare services with minimal downtime.

Watson, which was designed to solve a range of problems, will also help medical and business leaders better understand and control the complex challenges facing hospitals, hospitals’ health systems and healthcare providers.

Watson’s capabilities will help healthcare organizations reduce time and cost to treat patients, and reduce the number of doctors needed to treat complex health issues.

Watson has already been deployed in healthcare settings such as hospitals, where it is helping to manage patient visits, manage complex medical care, and administer tests and tests suites.

IBM said that Watson’s cloud-enabled capabilities will open up the ability for healthcare organizations to build and test their own solutions that are easier to deploy and more efficient for them.

Watson can work independently or with other healthcare and business partners, and will support medical research.

Watson may be used for a range, but not all, of the following: diagnosis and treatment of chronic diseases such as cancer, Parkinson’s disease, multiple sclerosis, and other complex diseases; diagnostics and monitoring of patients’ health and quality of life; and managing and managing the data that supports and protects healthcare organizations.

IBM will also leverage Watson to make the patient experience easier.

“Watson is a world-class AI system, and our goal is to create the world’s first cloud-native system for healthcare, to provide healthcare partners with a more agile and secure environment for diagnostics, monitoring, and delivering the best medical care,” said Robert Schuller, IBM vice president and general manager of Watson and IBM’s cloud computing solutions.

“It is important to our healthcare partners to be able to quickly deliver high-quality diagnostics to our patients, without having to invest in additional data centers and systems.”

Watson, developed by the Watson Lab at IBM, is a cloud-centric computing system that is designed for use in healthcare.

It uses machine learning algorithms to understand the human brain, and to perform complex tasks such as analyzing large amounts of data and predicting outcomes.

The Watson system can analyze data from a wide variety of sources, including medical, commercial, and non-medical, and is able to process this information in real-time and provide personalized diagnoses based on the most accurate data.

IBM’s Watson will make use of a wide range of Watson platform and software tools, including IBM Watson Advanced Analytics, IBM Watson Professional Diagnostics, IBM Cloud Computing and IBM Watson Diagnostics.

The healthcare and healthcare industry are rapidly advancing towards a fully connected, cloud and AI future, with the emergence of a number of emerging technologies, including cloud computing, virtualization, artificial intelligence, robotics, artificial-intelligence systems, data analytics, analytics tools and the medical data marketplace.

IBM, a wholly owned subsidiary of IBM Corporation, has more than 30,000 employees worldwide.

IBM is the world leader in research and development of cloud and cloud-focused solutions, with more than 1,300 employees worldwide and a market capitalization of $60 billion.

Watson and the IBM Watson platform are expected to be available for download on November 14.

IBM Watson will support a range with Watson Advanced Technologies, the company’s cloud platform and tool suite for diagnasing and monitoring complex disease conditions.

IBM Health, which is a division of IBM Health Group, is focused on healthcare delivery, health information, diagnostics & support, Watson, Watson Diagnosis and Watson Diagnostic Solutions, IBM Health’s healthcare platform and tools for diagnosis and diagnosis, health care and business intelligence, and healthcare systems.

For more information, please visit: http://www.ibm.com/health/products/whatson-and-health-products-services-and/whats-new-and…

Australia v New Zealand in Melbourne on Thursday to play World Cup qualifiers

The World Cup Qualifier is the World Cup’s biggest game of all time, and it is a lot more than the football, and more than just the matches.

The games are the stories of people, families, countries and generations.

There is much to remember.

There are stories about the day we were born, the things we learnt and the things that shaped our lives.

The most memorable of all is the moment our family was told we were playing the World Series.

We were at home in our hometown of Wagga Wagga, in Western Australia, and my husband and I got our tickets, which meant the entire family had to come down to the town to see us play the final of the tournament.

There was a big crowd there, but the highlight was when we got to play the match.

It was a day that had changed our lives forever.

That night, as we prepared for the game, I cried, thinking about all the families I had grown up with who would never see their children play a game like this.

The game has been celebrated in a different way.

It’s not the same when the game is on, but it’s still there, and the memories have been there for years.

That’s what made the night so special.

The World Series is the biggest game in sports.

It is about the people and the countries who participate, and so for the first time, we have the opportunity to celebrate something that has been part of our lives for a long time, but never before have we had the opportunity for this opportunity to be shared with so many people.

This is an opportunity for us to give back to the people who made it possible, and we hope to see you all there.

We are going to go out and try and make sure that the memories are fresh and fresh, and our fans are coming out to cheer us on.

We have got the biggest crowd we have ever played in, and with that, we’re going to try and go out there and make it count.

Why is Microsoft’s Bing getting more and more popular?

A few years ago, Microsoft was the company that gave everyone a new browser every week.

It was the dominant player in the browser wars, and it had a new-look, shiny new Windows 10 operating system that would come to be known as Windows 10 Anniversary Update.

Now, Microsoft is the dominant force in the search world.

The company has a massive market share in the online advertising business, and its search results for most terms are far more important than Google’s, according to research firm comScore.

Google, by contrast, is still a small player in search and has only recently begun to gain ground.

It is, for example, currently in the process of revamping its Google Search app, a move that has some people concerned that it is going to make it harder for search engines to compete with Google’s massive user base.

“We can’t compete with a company that has a huge customer base and is going out and making new searches on a daily basis,” said Scott Bowers, an analyst with comScore, who noted that Google’s search engine has grown from being the dominant search engine in the world in 2005 to now the second-most popular in the US, behind only Bing.

Google’s search engines, however, have become less powerful in recent years, especially in areas like mobile search.

Google has been getting more traction on mobile devices, especially among consumers who have a limited amount of space on their phones.

Google’s Bing and Yahoo have both been getting a boost in search rankings over the past few years.

Google, in particular, has become increasingly popular with users, but its search engine still isn’t strong enough to rival Bing and Apple’s search offerings.

Apple’s Bing, for instance, is the only search engine that’s more popular than Google in the United States, according a survey by Google’s research arm, Google Trends.

In the US and Canada, Apple and Google’s combined search traffic is over 10 million per month.

Bing, by comparison, has just over 700,000 searches per month, according comScore data.

Bets on BingAs for Bing, Bowers noted that the company has struggled in recent quarters, losing market share to Microsoft.

But, he said, Microsoft’s search business is also very competitive in other areas, particularly in areas where Bing doesn’t have much of a market share.

Bells search engine, for its part, is making gains in both markets.

The US now has nearly 300 million people who use Bing, up from just over 150 million a year ago, according ComScore data from last year.

The UK now has over 4 million people using Bing, from just under 2 million in 2016.

ComScore says Bing now has a 15 percent market share for the month of January.

Google is still second on that chart, at 12 percent.

Microsoft has also seen a big growth in its search traffic over the last few months, but it still lags behind Google’s on search terms.

Microsoft also sees an uptick in searches from people who are looking for other services.

According to comScore figures, search queries for services like social networks and shopping are up a little bit in January compared to last year, but searches for other things are up as well, comScore said.

Bowers believes that this is because people are searching for other ways to spend their time.

“I think the big thing that is driving Bing’s search is that people are looking to do things on their devices,” he said.

“So if you want to watch a movie or go to the gym, you can do that with your phone.”

Microsoft is hoping that it can attract users with Bing to its other products, like Office 365 and Bing Photos, in order to give Bing more reach in those areas.

The idea is to make Bing more useful for those who are interested in using it for other purposes.

Microsoft is also focusing on adding new products to Bing in the coming months, including new web browsers for Windows and Mac and new products for Windows Phone.

The company is also launching a new version of its Windows 10 app called Bing Personal, which it says will help improve the search experience for people who don’t use the company’s own search service.

It will also make it easier for people to install Bing on devices and get new apps to work with Bing, but Bowers expects that most people won’t be able to use Bing Personal on Windows phones.

“People won’t want to use it because it’s so new,” he told Ars.

“I think most people will want to see Bing in their phones.”