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How is the acceleration of falling bodies determine experimentally?
Wiki User
∙ 10y ago
For example, you can time how long it takes for an object to reach the floor. You also need to measure how far it falls down. If you assume constant acceleration, there is only one possible acceleration for any possible set of measurements.
Wiki User
∙ 10y ago
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What is the acceleration of falling bodies?
Near Earth's surface, the acceleration is about 9.8 meters/second2, assuming air resistance can be neglected.
What is the answer to this Freely falling bodies undergo what acceleration?
The acceleration depends on the force of gravity. Near Earth's surface, this acceleration is approximately 9.8 meters per second square.
What is relative acceleration?
relative acceleration between two bodies in motion is the vector substraction of the acceleration of that bodies.
How would the observed value of acceleration be affected if the falling body used were heavier?
Your question describes it as a "falling body", so I'm assuming that you're asking about a body with no force on it except for the gravitational force. This is an important assumption. If it's true, then the mass (weight) of the falling body has no effect at all on its acceleration. Except for the effect of air resistance, all bodies fall with the same acceleration.
What is the effect of the mass of freely falling body on gravitational acceleration?
No effect whatsoever. Any two freely falling bodies fall with the same acceleration when dropped in the same place on the same planet. That includes any two objects falling on Earth. Someone is sure to jump in here and point out that objects with different mass don't fall with equal accelerations on Earth, and that's because of air resistance. They may even go on to provide answers to other questions that were not asked, such as a treatise on terminal velocity. All of that is true, even if confusing. This question stipulated that the bodies in question are "freely fallling". Bodies that are falling through air are not freely falling.
What is the acceleration of falling bodies?
Near Earth's surface, the acceleration is about 9.8 meters/second2, assuming air resistance can be neglected.
What is the effect of distance of freely falling bodies from the centre of the earth on gravitational acceleration?
a nswer
What is the answer to this Freely falling bodies undergo what acceleration?
The acceleration depends on the force of gravity. Near Earth's surface, this acceleration is approximately 9.8 meters per second square.
How does the strength of gravity affect acceleration of falling bodies?
All bodies with mass are affected by gravity. Gravity pulls at a rate of 9.8m/s/s
What is relative acceleration?
relative acceleration between two bodies in motion is the vector substraction of the acceleration of that bodies.
How would the observed value of acceleration be affected if the falling body used were heavier?
Your question describes it as a "falling body", so I'm assuming that you're asking about a body with no force on it except for the gravitational force. This is an important assumption. If it's true, then the mass (weight) of the falling body has no effect at all on its acceleration. Except for the effect of air resistance, all bodies fall with the same acceleration.
Define free falling bodies?
free falling bodies
What is the effect of the mass of freely falling body on gravitational acceleration?
No effect whatsoever. Any two freely falling bodies fall with the same acceleration when dropped in the same place on the same planet. That includes any two objects falling on Earth. Someone is sure to jump in here and point out that objects with different mass don't fall with equal accelerations on Earth, and that's because of air resistance. They may even go on to provide answers to other questions that were not asked, such as a treatise on terminal velocity. All of that is true, even if confusing. This question stipulated that the bodies in question are "freely fallling". Bodies that are falling through air are not freely falling.
Why the velocities of falling bodies are not proportional to their weights?
Why the velocities of falling bodies are not proportional to their weights?
What is the direction of acceleration due to gravity State with reason?
The acceleration between two bodies is always towards the centre of mass of the bodies in question.
Who is the scientist that studied falling bodies?
Sir Isaac Newton and Galileo both studied the effects of gravity on falling bodies.
What is Galileo's law of odd numbers?
Galileo (1564-1642) was the first to determine, at the start of the seventeenth century, the law of constant acceleration of free-falling bodies. The law states that the distances traveled are proportional to the squares of the elapsed times. In other words, in equal successive periods of time, the distances traveled by a free-falling body are proportional to the succession of odd numbers (1, 3, 5, 7, etc.).
