0
Because the acceleration due to earth (gravitation) dose not depends on the mass of falling object & it's constant for deferent masses :
F= (G M m) / d2 …(1)
F = ma = mg ...(2)
mg = (G M m) / d2
g = (G M) / d2 …(3)
Where F is The force of gravity , G is gravity constant , M is the mass of earth , m is the mass of the object , d is the distance between earth & the object , a is acceleration and g is gravitation
from equation 3 since (G) and (M) are constant it's clear that (g) depends only on the distance (d) between Erath and the object and do not depend on the mass of falling object.
What else can I help you with?
In freefall heavier objects fall with a greater acceleration than lighter objects A True b false?
Faulse
Do heavier objects fall with a greater acceleration than lighter objects in free fall?
In the absence of air resistance, all objects fall with the same acceleration due to gravity, regardless of their mass. This acceleration is approximately 9.81 m/s^2 near the surface of the Earth.
Why do lighter objects fall slower than heavy objects?
Lighter objects fall slower than heavier objects because they have less mass, which results in less gravitational force acting on them. This means they experience less acceleration and take longer to reach the ground compared to heavier objects. The acceleration due to gravity is the same for both objects, but the heavier object requires more force to overcome its weight and accelerate at the same rate.
Will a lighter ball fall faster than a heavier ball?
No, in the absence of air resistance, all objects fall at the same rate regardless of their weight due to the acceleration of gravity. This was famously demonstrated by Galileo with his experiments involving balls of different weights. Thus, a lighter ball will not fall faster than a heavier ball in a vacuum.
What happens when the gravitational force acting on an object is changed?
When the gravitational force acting on an object changes, the object's weight may change accordingly. If the force increases, the object will feel heavier, and if the force decreases, the object will feel lighter. This change in gravitational force can also impact the object's motion and trajectory if it is in free fall or orbit.
Why does a heavier object fall with the same accelerate as a lighter object?
In a vacuum or airless environment, all objects, regardless of weight, fall at the same rate due to gravity. This phenomenon is known as the equivalence principle, proposed in Einstein's theory of general relativity. The acceleration of an object due to gravity is constant and independent of its mass.
How do the velocities of unbalanced weights compared?
When dropped the mass of an object does not affect the rate at which it falls. The size and shape may affect the wind resistance which affects falling velocity but heavier objects will not fall faster than lighter objects with all other variables constant.
Does heavier object fall faster?
In a vacuum, all objects fall at the same rate of acceleration regardless of their weight. This is due to the principle of gravity. However, in the presence of air resistance, heavier objects may fall faster than lighter objects due to their ability to overcome air resistance more effectively.
In freefall do heavier objects fall with a greater acceleration than lighter objects?
No, in the absence of air resistance, all objects fall with the same acceleration due to gravity, regardless of their mass. This is described by the principle of equivalence, which states that gravitational mass and inertial mass are equivalent.
In freefall heavier objects fall with a greater acceleration than lighter objects?
In a vacuum, all objects fall at the same rate regardless of mass due to gravity. This is known as the equivalence principle. However, in environments with air resistance, lighter objects may experience more air resistance and fall slower compared to heavier objects due to their surface area-to-mass ratio.
Is an object in free fall with less air resistance fall with a greater acceleration?
No, an object in free fall experiences the same acceleration due to gravity regardless of its shape or size. Air resistance does not affect the acceleration due to gravity acting on the object.
The force of gravity on a 4kg object is twice that on a 2kg object Why does the 4kg object not fall with twice the accleration?
The reason that a heavier object does not fall faster even though there is more gravitational force on it is because it has more mass, and more energy is required to accelerate the greater mass. A small mass doesn't need a lot of force on it to accelerate it. It's "light" in weight. But a heavier one needs more force on it to accelerate it equally. Want a heavier object to accelerate the same as a lighter one? Apply more force. Gravity does that. Automatically. Think it through and it will lock in.
