The speed of the object will increase.
The speed of the object will increase.
Force on an object accelerates the object. That means it can make the object go faster, go slower, or change the direction it's moving.
Deceleration is merely acceleration in a direction opposite to the original motion. If something isnt moving it cannot be decelerated but if it is moving and the resultant force acts in the opposite direction to motion it will decelerate the object.
Air resistance is affected by surface area and Shape
An object is accelerating if any of these things are happening . . .-- its speed is increasing-- its speed is decreasing-- its direction is changing.The object may be accelerating even if its speed isn't changing.Acceleration does not mean "speeding up".
The speed of the object will increase.
The speed of the object will increase.
Force on an object accelerates the object. That means it can make the object go faster, go slower, or change the direction it's moving.
When an object accelerates it can change its speed or direction of motion. When it accelerates without changing its direction of motion, it can cover any distance in less time.
Deceleration is merely acceleration in a direction opposite to the original motion. If something isnt moving it cannot be decelerated but if it is moving and the resultant force acts in the opposite direction to motion it will decelerate the object.
It accelerates as long as the force is applied, and after that it continues at a uniform speed and direction.
An object accelerates in the direction of the net applied force, which is the vector sum of all applied forces.
Air resistance is affected by surface area and Shape
change in velocity
An object is accelerating if any of these things are happening . . .-- its speed is increasing-- its speed is decreasing-- its direction is changing.The object may be accelerating even if its speed isn't changing.Acceleration does not mean "speeding up".
The object accelerates in the direction of the force difference.
An object accelerates when all the forces acting on it don't add up to zero.