Yes. An object cannot begin to move without acceleration, but once it's moving, it needs no further acceleration to continue moving.
If acceleration means to increase in speed or pace, then a stationary object is static, without movement, without acceleration. But, if an object is moving at a constant rate, then I suggest acceleration is not present, unless, or until the objects speed increases. Yes, an object with no acceleration may be stationary.
not if the object isn't move, no
Force = Mass * Acceleration or Acceleration = Force / MassThe Mass is the mass of the object and the Acceleration is the change of speed of the object due to the Force.
Any amount will do.
On earth, the vertical acceleration of any object that's free to move vertically,and has no artificial force imposed on it, is 9.8 meters (32.2 feet) per second2,directed downward. The source of the acceleration is the mutual gravitationalattraction between the object and the earth.
If acceleration means to increase in speed or pace, then a stationary object is static, without movement, without acceleration. But, if an object is moving at a constant rate, then I suggest acceleration is not present, unless, or until the objects speed increases. Yes, an object with no acceleration may be stationary.
not if the object isn't move, no
Force = Mass * Acceleration or Acceleration = Force / MassThe Mass is the mass of the object and the Acceleration is the change of speed of the object due to the Force.
You increase the object's acceleration.
yes it does it makes it heavier which in turn slows acceleration unless more force is added to move the object
Yes, if apply at the right angles the acceleration can change the object's current direction without effecting its speed.
It does't
Any amount will do.
Force, which causes acceleration
when an object shifts or is displaced from its initial position with or without acceleration then we can say that the object is moving.
Such and object is said to be in equilibrium. No acceleration and no force.
You cannot find the force without knowing the velocity or acceleration of the object.