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What is the relationship between static acceleration and an object's position in a gravitational field?
The relationship between static acceleration and an object's position in a gravitational field is that the static acceleration of an object in a gravitational field is constant and does not change with the object's position. This means that the object will experience the same acceleration due to gravity regardless of where it is located within the gravitational field.
Why does gravitational acceleration of any object near earth is the same no matter what the mass is?
It isn't; gravitational force is minutely different around the world, such as compared between the equator and the poles. However, this difference is so minute it is hardly worth considering. The acceleration on an object is the same regardless of mass (when placed in the same place) because the formulae used for calculating the acceleration make the mass of the object redundant and it doesn't affect anything.
Is it true when velocity decreases and acceleration arrows point in the same direction?
No, when velocity decreases and acceleration arrows point in the same direction, it means the object is speeding up in the negative direction.
Why is the acceleratoin due to gravity the same for all objects?
-- The more mass an object has, the more gravitational force there is betweenit and the Earth.-- But the more mass an object has, the more force is required to accelerate it.-- The relationship between how much gravitational force there is and how much forceis required trades off just right, so that every mass has the same acceleration.
Given no air resistance all objects near the Earth's surface regardless of size and weight fall with the same acceleration because of?
Gravity affects every object differently but when dropped at the same height and time, they will hit the ground at the same time .Why acceleration is the same.Force, mass and acceleration are related by f = ma, otherwise written a = f/m.The gravitional force exerted by the earth is proportional to the mass of the falling object. If f=gm and a=f/m, then the acceleration equals gm/fm. This means that acceleration equals g whatever the mass of the object.
Is gravitational pull the same as gravitational acceleration?
No. "Pull" is a force, not an acceleration.
What stays the same regardless of gravitational acceleration?
helium
Why is the gravitational accleration of any object near Earth is the same?
The gravitational acceleration of an object near Earth is the same because it depends only on the mass of the Earth and the distance from the center of the Earth. This means that all objects experience the same gravitational acceleration, regardless of their mass or composition.
Can gravitational acceleration be reduced artificially?
No. Gravitational Acceleration is a constant and is a function of mass. The effects of the constant upon another mass can be altered but the acceleration itself will remain the same.
What is the relationship between static acceleration and an object's position in a gravitational field?
The relationship between static acceleration and an object's position in a gravitational field is that the static acceleration of an object in a gravitational field is constant and does not change with the object's position. This means that the object will experience the same acceleration due to gravity regardless of where it is located within the gravitational field.
When is acceleration constant?
constant acceleration is when you gain the same speed over the same time
What is the relation connecting acceleration and gravitational force?
The same as the relation between acceleration and any other force. Force = (mass) x (acceleration) If the force happens to be gravitational, then the acceleration is down, and the formula tells you the size of the acceleration. If the acceleration is down and there are no rocket engines strapped to the object, then it's a pretty safe bet that the force is gravitational, and the formula tells you the size of the force.
Why is it that more massive objects have a greater gravitational force and yet everything on Earth falls with the same acceleration to the Earth?
The force is the product of mass and acceleration thus F= ma, if a is the same for all objects then the gravitational force difference depends on the mass alone.
Is gravitational force same for every body?
no, because gravitational force depents on the object's weight.
Why does gravitational acceleration of any object near earth is the same no matter what the mass is?
It isn't; gravitational force is minutely different around the world, such as compared between the equator and the poles. However, this difference is so minute it is hardly worth considering. The acceleration on an object is the same regardless of mass (when placed in the same place) because the formulae used for calculating the acceleration make the mass of the object redundant and it doesn't affect anything.
When an object is in free fall is it weightless?
Because the object's inertial motion is equal to the gravitational acceleration. Weight equals mass times gravitational acceleration (W=mg), so you would feel weightless, but your mass stays the same.
Is it true when velocity decreases and acceleration arrows point in the same direction?
No, when velocity decreases and acceleration arrows point in the same direction, it means the object is speeding up in the negative direction.
