Is the acceleration due to gravity more or less atop Mt. Everest than at sea level? Defend your answer.

5 answers

it is less, as the distance to the cneter of mass of Earth is farther.
a book slides off a table top with a speed of 18 meters per second. it strikes the floor in 0.52 seconds how tall was the table in meters
s the acceleration due to gravity more or less atop Mt. Everest than at sea level? Defend your answer
Acceleration due to gravity is less at heights.
The acceleration due to gravity is actually slightly less atop Mt. Everest compared to at sea level. This is because the force of gravity depends on the distance between the object and the center of the Earth. As we move higher above the Earth's surface, the distance between the object and the center of mass increases, resulting in a decrease in the force of gravity and thus a lower acceleration due to gravity.

According to the inverse square law, the force of gravity between two objects is inversely proportional to the square of the distance between their centers. This means that as the distance increases, the force of gravity decreases exponentially. Since the height of Mt. Everest is significantly higher above sea level, the acceleration due to gravity will be slightly less there.

However, it's important to note that the difference in acceleration due to gravity between sea level and the summit of Mt. Everest is very small and not easily noticeable. In practical terms, the effect of altitude on acceleration due to gravity is negligible for most everyday situations.
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