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What techniques do you find in common between how we probe the internal structure of the Sun and the internal structure of Earth?
We use seismic waves (or pressure waves) to interpret the internal structure of both the sun and earth. When studying the sun it is called helioseismology on earth it is just called seismology
What are the waves that travel from the sun to earth?
Light waves travel from sun to the earth.
How are astronomers able to explore the layers of the sun below the photosphere?
Sunspots, prominences and flares are all manifestations of magnetic fields, and these are indicators of processes going on deeper within the Sun. Also, just as earthquakes can help geologists study the Earth's interior, so can "sun-quakes" provide info about the Sun's interior.
How do you know what goes on under the surface of the Sun?
Astronomers create mathematical models that use the laws of physics, the Sun's observed composition and mass, and computers to predict internal conditions. By measuring Doppler shifts, we observe vibrations of the Sun's surface that are created deep within the Sun.
How do scientists know how the sun looks like from the inside like the core?
Theoretically, scientist do not know what the sun looks like through this perspective. The only way to know is to actually be there. However, research using inductive and deductive empirical reasoning to make accurate assumptions.
What techniques do you find in common between how we probe the internal structure of the Sun and the internal structure of Earth?
We use seismic waves (or pressure waves) to interpret the internal structure of both the sun and earth. When studying the sun it is called helioseismology on earth it is just called seismology
What natural occurrences help scientist layer about the layers of the earth?
Earthquakes, volcanic eruptions, and the study of seismic waves are natural occurrences that help scientists learn about the layers of the Earth. By analyzing how these events interact with different layers of the Earth, scientists can infer properties such as composition, density, and thickness of the various layers beneath the surface.
Why is it necessary for scientists to use AU to measure distance in space?
It's more convenient for scientists. AU is the distance the earth is from the sun.
What are things that make waves?
Waves can be created by wind blowing over the surface of water, seismic activity such as earthquakes, tides caused by the gravitational pull of the moon and sun, or by the movement of objects in a body of water.
How can you measure the surface temperature of the sun?
Indirectly, by analyzing the light given off by the Sun. Typically, a hotter object will emit electromagnetic waves of higher-energy - on average, because such an object will emit a mix of many electromagnetic waves.
WhatRange in size from one to 500 miles in diameter and revolve around the sun?
Scientists have not found the diameter of the sun and they probably never will because the sun is to hot to get close to so they can't make a measure for it.
What are the waves that travel from the sun to earth?
Light waves travel from sun to the earth.
What scientists found the sun?
Scientists did not find the sun. The sun has been visible to mankind since the dawn of time.
How are astronomers able to explore the layers of the sun below the photosphere?
Sunspots, prominences and flares are all manifestations of magnetic fields, and these are indicators of processes going on deeper within the Sun. Also, just as earthquakes can help geologists study the Earth's interior, so can "sun-quakes" provide info about the Sun's interior.
How does the sun makes waves?
The Sun doesn't create waves on the ocean and large bodies of water. The waves are caused by the wind.
How do you give credit to the sun for sound waves?
Waves
How are sunquakes and earthquakes similar?
Sunquakes and earthquakes are both seismic events that generate waves. However, sunquakes are caused by disturbances on the surface of the sun, whereas earthquakes are caused by movements along faults in the Earth's crust. Both types of events can produce vibrations that travel through the respective bodies, leading to shaking and the propagation of seismic waves.
