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If enough upthrust is added to an object then it will be pushed upwards. If enough air resistance is applied to an object then it will move in the direction which the air resistance is pushing it in. If you are already falling, then you will have air resistance. If it is increased when you open a parachute for instance, then you will slow down.
Friction's direction is always against the direction work is being applied to.
In order to change direction, the applied force (represented as a Vector) must change DIRECTION. A change in magnitude of the Force is not necessary.
All objects possess the characteristic we refer to as mass. Mass is a measure of an object's natural resistance to any force applied to it. An object may be considered as having a velocity with respect to a given reference frame. This velocity can take any value from zero to just under the speed of light. If an object experiences an applied force, that force will cause the object's velocity to change. The change is at a rate and direction that is absolutely dependant on the direction of the applied force with respect to the original direction of motion of the object. If the applied force increases then so does the rate of change of velocity. If the force and any increase is applied in a direction with the motion of the object, the result is a positive acceleration, causing an increase of speed - or velocity. If the force and any increase of that force is applied in a direction opposing the original motion of the particle, this results in a negative acceleration resulting in a decrease in the objects speed - or velocity.
That has no effect on the resistance. The current doubles also.
If enough upthrust is added to an object then it will be pushed upwards. If enough air resistance is applied to an object then it will move in the direction which the air resistance is pushing it in. If you are already falling, then you will have air resistance. If it is increased when you open a parachute for instance, then you will slow down.
Applied force when the ball is hit, and air resistance on the ball going in the opposite direction.
Axial load (or thrust load) is a force applied parallel to the longitudinal axis, whereas, a radial load is a force applied transverse to this longitudinal axis.
Acceleration is in the same direction as the applied force.
A: They are applied both and combination of both
resistance
Marie Davidian has written: 'Applied longitudinal Data Analysis'
As an object falls, it pushes air out of the way as it falls. Air is pushed up in the same direction and with the same amount of force applied known as air resistance.
An object accelerates in the direction of the net applied force, which is the vector sum of all applied forces.
Work is applied to an object and the object is moved over a distance in the same direction of the applied force.
Resistance is due to a property specific resistance of material. In no way resistance depends on the voltage applied. This is the case of ordinary conductor. But in case of semi conductor or insulator there may be chances to get a variation of conductance and hence resistance due to potential applied.
It is a = F/M, and acceleration can be in any direction you want. When a force is applied, the object accelerated only in the direction of that force.