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Do astronomers look through telescopes?

Do astronomers look through telescopes?

In fact, many astronomers work 9 ’till 5 with data downloaded from remote telescopes. That’s right; astronomers don’t look through telescopes.

How has technology affected the work of astronomers?

Thanks to technology, astronomers can now look beyond the electromagnetic spectrum as the only means of studying the compositions of celestial objects, opening a whole new way in which we can study the universe.

Do astronomers work in observatories?

While astronomers conduct research in laboratories and observatories, they may also spend much of their time in offices. Most astronomers work full time. While they may need to work at night to make observations, most astronomers visit observatories only a few times per year, and otherwise keep normal office hours.

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How do astronomers use telescopes?

A telescope is a tool that astronomers use to see faraway objects. Most telescopes, and all large telescopes, work by using curved mirrors to gather and focus light from the night sky. The bigger the mirrors or lenses, the more light the telescope can gather. Light is then concentrated by the shape of the optics.

How is the telescope still used today?

Telescopes have also helped us understand gravity and other fundamental laws of the physical world. Some new telescopes allow us to study objects in the universe by detecting the heat or radio waves or X-rays they emit. Telescopes are now discovering planets around other stars.

What do astronomers do with telescopes?

A telescope is a tool that astronomers use to see faraway objects. Most telescopes, and all large telescopes, work by using curved mirrors to gather and focus light from the night sky. The first telescopes focused light by using pieces of curved, clear glass, called lenses.

How have telescopes changed the world?

Telescopes have opened our eyes to the universe. Early telescopes showed that Earth was not the center of the universe, as was previously believed. Later telescopes have revealed geography and weather on the planets in our solar system. Telescopes have also revealed new planets and asteroids.

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What astronomers do?

An astronomer is a scientist in the field of astronomy who focuses their studies on a specific question or field outside the scope of Earth. They observe astronomical objects such as stars, planets, moons, comets and galaxies – in either observational (by analyzing the data) or theoretical astronomy.

Where do astronomers work in South Africa?

In South Africa employment in the astronomy and astrophysics field is found at astronomical research facilities [e.g. HartRAO (http://www.hartrao.ac.za/), SAAO (http://www.saao.ac.za/), SA SKA and MeerKAT] and at universities.

What do we see when we look into a telescope?

That light is what we see when we look into a telescope. A telescope is a tool that astronomers use to see faraway objects. Most telescopes, and all large telescopes, work by using curved mirrors to gather and focus light from the night sky.

What are the advantages of Newton’s reflecting telescope?

based upon Newton’s basic design. Yet another bonus of Newton’s reflecting telescope is that it can also be used to study ultraviolet and infrared light. The Hubble Space Telescope, famous for its stunning optical images of the universe, also works in the ultraviolet and infrared parts of the spectrum.

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Why do we use mirrors in telescopes?

Most telescopes, and all large telescopes, work by using curved mirrors to gather and focus light from the night sky. The first telescopes focused light by using pieces of curved, clear glass, called lenses. So why do we use mirrors today? Because mirrors are lighter, and they are easier than lenses to make perfectly smooth.

What part of the electromagnetic spectrum does the Hubble Space Telescope work?

The Hubble Space Telescope, famous for its stunning optical images of the universe, also works in the ultraviolet and infrared parts of the spectrum. But it wasn’t until the 1930s that astronomers even began looking for other parts of the electromagnetic spectrum.