What is the importance of EM measurements in astrophysics?

In summary, EM measurements are crucial in our understanding of astrophysics, as they make up the majority of our observations of the universe. Other types of observations, such as gravitational waves and neutrinos, are rare in comparison. There are also occasional chemical observations, but these are limited in number and may not fall strictly under the category of astrophysics.
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binbagsss
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I was asked this in a PhD interview and hit a blank, it seemed to open...
 
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Um... virtually everything we know about astrophysics has come from measuring electromagnetic waves. Gravitational waves and neutrinos are the only exceptions I can think of and the number of those observations is miniscule compared to the number of EM wave observations.
 
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binbagsss said:
I was asked this in a PhD interview and hit a blank, it seemed to open ...

What is the importance of EM measurements in astrophysics ? ...

phyzguy said:
Um... virtually everything we know about astrophysics has come from measuring electromagnetic waves. Gravitational waves and neutrinos are the only exceptions I can think of and the number of those observations is miniscule compared to the number of EM wave observations.

agreed with phyzguy, we use various forms of EM for almost all studies of the universe...
from low frequency radio waves to EHF radio ( microwaves) to infra red, visible light, ultraviolet, to x-rays and gamma rays
They are all EM in nature (all types of EM)

should have been an easy answer for a PhD student :wink:Dave
 
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davenn said:
agreed with phyzguy, we use various forms of EM for almost all studies of the universe...
from low frequency radio waves to EHF radio ( microwaves) to infra red, visible light, ultraviolet, to x-rays and gamma rays
They are all EM in nature (all types of EM)

should have been an easy answer for a PhD student :wink:Dave
Should have been an easy answer for a high-school student. ;-)
There is one other type of observation we can occasionally make: chemical, when we have access to the atoms themselves, as with sample-return missions and the Mars rover and other "lander" missions. But again, the number of those observations is minuscule compared to EM (and we might quibble that these are not precisely astrophysical, as the OP asked, but "astrochemical".)
 
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Related to What is the importance of EM measurements in astrophysics?

1. What is the purpose of EM measurements in astrophysics?

Electromagnetic (EM) measurements are essential in astrophysics because they allow us to study the properties of celestial objects, such as their temperature, chemical composition, and magnetic fields. These measurements also provide information about the processes that occur within these objects, helping us understand the fundamental laws of physics that govern our universe.

2. How do EM measurements help us understand the universe?

EM measurements provide us with invaluable data that allows us to study the origin, evolution, and structure of the universe. By analyzing the EM radiation emitted by various celestial objects, we can determine their distance, size, and movement, which helps us piece together a more comprehensive understanding of our universe.

3. What types of EM measurements are used in astrophysics?

Astrophysicists use a variety of EM measurements, including radio, infrared, visible light, ultraviolet, X-ray, and gamma-ray observations. Each type of measurement provides unique insights into different aspects of the universe, allowing us to build a more complete picture of the cosmos.

4. How do EM measurements contribute to our knowledge of dark matter and dark energy?

EM measurements have played a crucial role in our understanding of dark matter and dark energy. By studying the EM radiation from galaxies and other celestial objects, scientists have been able to infer the presence of dark matter and dark energy, which are invisible to traditional telescopes. These measurements have helped us quantify the amount of dark matter and dark energy in the universe and understand their impact on the evolution of the cosmos.

5. Are there any limitations to EM measurements in astrophysics?

While EM measurements have greatly advanced our understanding of the universe, there are some limitations. EM radiation can be affected by factors such as dust, gas, and magnetic fields, which can distort the observed data. Additionally, some celestial objects, such as black holes, emit little to no EM radiation, making them challenging to study using traditional methods. However, scientists are continually developing new techniques to overcome these limitations and expand our knowledge of the cosmos.

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