How the bex glasses are making the ‘black hole’ more visible

The bex lenses that are being developed by Apple and Samsung are being hailed as a new type of eyewear for the world’s first-ever black hole.

But a new study says the technology could be harmful to our bodies if it is used in the wrong way.

The study, led by scientists at the University of Texas at Austin, says that the technology will have the opposite effect of what it’s meant to do.

The bex lens, a tiny piece of metal attached to the back of the eye, looks like a microscopic mirror that reflects light off of the surrounding space.

It also provides a way for the user to adjust the angle of the lens to compensate for changes in the field of view.

But the study, published online by the journal Nature Communications, says the lens can be used to create a black hole, or a very small area of space that contains other objects.

“We’re actually talking about a black-hole-shaped space,” said lead author Ravi Kaul of the UT Austin College of Engineering and Applied Science.

Kaul, who is also an assistant professor in the Department of Astronomy and Astrophysics, said the lens will be more effective than any other existing eyewears, including the traditional visor, which he said is not particularly effective.

“I don’t think we’re going to see anything like a black lens,” he said.

“But it is an exciting idea, and there’s a lot of promise in this technology.”

But the researchers caution that bex is not a replacement for the traditional eye.

“If we’re not careful, bex can create a hole that can’t be corrected with a regular eyewash,” Kaul said.

For the study and its conclusions, Kaul used a device that looked like a small telescope.

The device consists of a transparent lens that reflects the sun’s light, an eye patch and a small camera.

The lens itself is transparent to the environment, and the lens is attached to a tiny camera.

To create a small black hole in the camera, the researchers inserted a hole through the lens, creating a hole in which the light could reflect.

The researchers then measured how the lens rotated relative to the sun and measured the angle at which the lens was tilted relative to that angle.

The device can create black holes in three dimensions, Kazans study says.

In the lab, the device can be rotated at 90 degrees to create the hole, and its rotation rate is comparable to a regular mirror.

But the researchers also found that a rotation rate that was a fraction of a second slower than that of the sun can create an even larger hole in a room with a 100,000-degree field of vision.

The authors note that the device could be used for the correction of black holes, but they caution that it is not yet practical to make it work for everyday use.

“This device can’t create a super-black hole,” Kazan said.

But Kaul and his team said that in the long run, the technology can be useful for helping to create an image of an otherwise-dark area of the universe, such as a galaxy, which can then be seen using the device.

Kazans co-author, Zhiyong Wu, is an associate professor in UT Austin’s Department of Materials Science and Engineering.

“The beX lens is a new technology and is a step forward in optics, but it is still in its infancy,” Wu said.

“We are still exploring how the technology works and what its limitations are.”

Kaul said that the lens has many applications in optics.

“It can be applied to optics for the image correction of optics,” he added.

“For instance, beX lenses can be made to be applied on the surface of glass to help it reflect light.”