A seismograph is used and p waves and s waves are used to determine the distance of the waves
Answer:
True
Explanation:
Kepler's second law states that for a planet orbiting a star, if we join the planet and the star by an imaginary line, such line sweeps equal areas in equal times.
Let's imagine the planetary orbit is elliptical. When the planet is closest to the star it travels a large distance in its orbit but takes little time to travel. When the planet is furthest from the star, it travels a small distance in the orbit but in a long time so it ends up sweeping the same are as in the first case.
Therefore, this means when the planet is closest to the star it must have a greater speed than when it's furthest. We know this thanks to the speed formula v = d/t (velocity equals distance divided by time).
For a great distance and small time, speed is a large value.
For a small distance and a great time, speed is a small value.
False he did not suffer damage in the war
Answer:
can I trauma dump.. or like just rant idek
C. Energy
Explanation:
Water needs to have enough energy to overcome inertia and gravity during erosion.
Energy is the ability of any body to do work.
Inertia is the tendency of a body to remain at rest or in uniform motion.
Gravity is the force of attraction between the earth and any massive body.
To overcome these forces, a body needs adequate amount of energy. With the energy, the water is able to exercise its eroding power by moving.
learn more:
Erosion brainly.com/question/2473244
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