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The acceleration increases in the direction of the force.
If acceleration is kept constant but you vary the mass, the force will vary in direct proportion to the mass. If the mass increases, the force will also increase, and if the mass decreases the force will also decrease. Newton's 2nd Law, illustrated by the equation F=ma, illustrates this.
Your weight is a combination of your mass and the force of gravity. on the moon your weight is less because the force of gravity is less, however your mass remains constant no matter where it is measured.
Velocity remains constant if no external force acts.
Local accelleration or gravitation creates force. Mass remains constant despite presence or absence of accelleration or gravity.
force directly proportional to acceleration. so F/a is remains constant. which is equal to mass of an object
As net force is constant, from Force= mass *acceleration mass becomes inversely proportional to acceleration (net force being the constant between them) ..thus if mass increases, the acceleration decreases. ( mass= net force* 1/acceleration) so the objects slows down.
Force = (mass) times (acceleration) Constant force produces constant acceleration.
The force equal mass times acceleration, if force remains the same, and mass is doubled, then acceleration must be cut in half.
Assuming the mass remains constant, the acceleration will be tripled as well.
No, mass remains constant.
F=ma, force = mass x acceleration. Therefore, more mass means more force is required.