When you decrease mass, the object will experience less inertia and therefore accelerate more readily in response to a force. When you decrease force, the object will experience less acceleration for a given mass and the motion will be slower.
Hold on there. Mass doesn't control the force. Force controls the acceleration. As the mass of an object decreases, less force is required to produce the same acceleration. If the accelerating force is gravitational, that force will decrease. If it is not, then the force will not decrease.
If you increase the mass of an object and keep the force constant, the acceleration of the object will decrease because the force-to-mass ratio decreases. Conversely, if you increase the force applied to an object while keeping the mass constant, the acceleration of the object will increase because the force-to-mass ratio increases.
When mass decreases, gravitational force also decreases. The gravitational force between two objects is directly proportional to the product of their masses. So, a decrease in mass will result in a reduction in the gravitational attraction between the objects.
If force is applied to an object and the object's mass remains constant, the acceleration of the object will change. According to Newton's second law of motion (F = ma), if the mass is constant and the force increases, the acceleration will also increase. Conversely, if the force decreases, the acceleration will decrease.
If more force is applied to an object and the mass increases, the acceleration of the object may remain the same, decrease, or increase depending on the magnitude of the force in comparison to the increase in mass. The relationship between force, mass, and acceleration is governed by Newton's second law of motion (F = ma).
Assuming that mass stays constant, a decrease in force will result in a corresponding decrease in the acceleration of the object being acted upon by the force.
It increases. (Standard rocket science.)
Hold on there. Mass doesn't control the force. Force controls the acceleration. As the mass of an object decreases, less force is required to produce the same acceleration. If the accelerating force is gravitational, that force will decrease. If it is not, then the force will not decrease.
If you increase the mass of an object and keep the force constant, the acceleration of the object will decrease because the force-to-mass ratio decreases. Conversely, if you increase the force applied to an object while keeping the mass constant, the acceleration of the object will increase because the force-to-mass ratio increases.
force (F) is equal to mass (m) multiplied by acceleration (a). F=m*a. if mass is made subject, m=F/a. hence mass is directly proportional to force. therefore an increase( or decrease) in force means an increase ( or decrease) in force also.
When mass decreases, gravitational force also decreases. The gravitational force between two objects is directly proportional to the product of their masses. So, a decrease in mass will result in a reduction in the gravitational attraction between the objects.
You sink.
If force is applied to an object and the object's mass remains constant, the acceleration of the object will change. According to Newton's second law of motion (F = ma), if the mass is constant and the force increases, the acceleration will also increase. Conversely, if the force decreases, the acceleration will decrease.
If more force is applied to an object and the mass increases, the acceleration of the object may remain the same, decrease, or increase depending on the magnitude of the force in comparison to the increase in mass. The relationship between force, mass, and acceleration is governed by Newton's second law of motion (F = ma).
By F = ma, if the force remains constant, and the mass decreases, this would mean that the acceleration has increased by exactly the same factor as the decrease in mass. That is, if the mass of a substance was halved, its acceleration would have doubled exactly.
False. Decreasing the mass of the wagon will not increase the force used to pull it. The force required to pull an object is dependent on its mass, so reducing the mass would actually decrease the force needed.
If the cart's mass is doubled, its acceleration would be halved if the force remains constant. This is because acceleration is inversely proportional to mass, so an increase in mass would result in a decrease in acceleration when force is held constant.