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Gravity must be the only force acting on the object, to produce downwards vertical acceleration. There is no force acting in the horizontal direction because there is no acceleration.
There are generally 4 forces which affect an object. These are: - weight force - the force acting downwards on the object - normal reaction force - the force acting upwards on the object - driving force - the force pushing the object on the horizontal plane (ie. left/right) - friction force (including air resistance) - the force pushing the object in the opposite direction to the driving force
Balanced forces acting on an object do not change the object's position.
The forces acting on a stationary object are:PushPullGravity
The larger the force acting upon an object, the greater the acceleration of the object.
Gravity must be the only force acting on the object, to produce downwards vertical acceleration. There is no force acting in the horizontal direction because there is no acceleration.
If an object is rolling along a plane horizontal surface with no other forces acting on it, then rolled distance is directly proportional to the time taken.If an object is rolling along a plane horizontal surface with no other forces acting on it, then rolled distance is directly proportional to the time taken.If an object is rolling along a plane horizontal surface with no other forces acting on it, then rolled distance is directly proportional to the time taken.If an object is rolling along a plane horizontal surface with no other forces acting on it, then rolled distance is directly proportional to the time taken.
It is acceleration in the horizontal direction. This would happen as a result of a net horizontal force acting on a body.
During motion in a vertical circle, the force of gravity (weight of the object) is in the same direction as the motion for half the time and in the opposite direction for the rest.For a body moving in a horizontal circle, gravity is acting orthogonally to the motion at all times.During motion in a vertical circle, the force of gravity (weight of the object) is in the same direction as the motion for half the time and in the opposite direction for the rest.For a body moving in a horizontal circle, gravity is acting orthogonally to the motion at all times.During motion in a vertical circle, the force of gravity (weight of the object) is in the same direction as the motion for half the time and in the opposite direction for the rest.For a body moving in a horizontal circle, gravity is acting orthogonally to the motion at all times.During motion in a vertical circle, the force of gravity (weight of the object) is in the same direction as the motion for half the time and in the opposite direction for the rest.For a body moving in a horizontal circle, gravity is acting orthogonally to the motion at all times.
Force of horizontal normal to the wall reaction on the object will be exactly equal to the force you're pushing it against the wall with.
There are generally 4 forces which affect an object. These are: - weight force - the force acting downwards on the object - normal reaction force - the force acting upwards on the object - driving force - the force pushing the object on the horizontal plane (ie. left/right) - friction force (including air resistance) - the force pushing the object in the opposite direction to the driving force
An object can only gain speed if there is a net force on it. If a net horizontal force acting on an object is large enough, or acts for a long enough time, the object can aquire a speed up to just under the speed of light, 3 x 10^8 m/s.
Balanced forces acting on an object do not change the object's position.
If the object is moving along a horizontal surface with a constant acceleration,then the net vertical force on it is zero, and the net horizontal force on it is(the pushing force) minus (any kinetic friction force where it rubs the surface).The numerical value of that net force is(the acceleration) times (the object's mass).
The forces acting on a stationary object are:PushPullGravity
The net force acting on the object.
When the net forces acting on an object sum to zero then the object's acceleration is zero.