The data provided will provide a guideline of how to calculate the unbalanced force. The unbalanced force is calculated using the formula : Unbalanced force is equivalent to the mass of the object in kilograms times the acceleration.
Assuming that there are a number of forces acting on a point, these forces are vector quantities, that means they have both a direction and a magnitude. As such it may initially be necessary to resolve these forces into their horizontal and vertical constituents so that they can be added together. If this sums to a non zero value then the forces are unbalanced and the object will undergo an acceleration.
In order to calculate the acceleration it is necessary to divide the unbalanced force by the mass of the object.
Acceleration (ms-2) = Unbalanced Force (N) / Mass (Kg).
Calculate it, based on what? - One way would be to use Newton's formula: F = ma (if you know the mass and the acceleration).
You just add the two forces in this case.
The application of force on object (without opposing forces) results in acceleration in the direction of the vector. In this case the unbalanced force to the left will accelerate the object to the right.
-- An unbalanced group of forces on an object causes the object to accelerate in the direction of the net force. -- If an object is not moving, then the group of forces on it must be balanced, else it would be accelerated.
There's no such thing as "an unbalanced force". When the entire group of forces acting on an object is unbalanced, the object accelerates, in the direction of the vector sum of the forces.
The object will speed up, slow down or change direction. An unbalanced force (net force) acting on an object changes its speed and/or direction of motion. ... If however, the forces are balanced (in equilibrium) and there is no net force, the object will not accelerate and the velocity will remain constant.
There is no such thing as "an unbalanced force". There are only forces. When two or more separate forces act on the same object, the GROUP of forces may be balanced or unbalanced. If the sizes and directions of all the individual forces add up to zero, then the GROUP of forces is balanced. If one of them changes or goes away, then the GROUP of forces is unbalanced.
An unbalanced force will cause acceleration in the direction of the force.
The forces cause the object to move in the direction of the net force. If there are two unbalanced forces in opposite directions, the object will go in the direction of the stronger force.
a force, which is the sum total of the two unbalanced forces, acts on the body and the body moves in the direction of the force.
There is acceleration in the direction of positive net force.
if a force is unbbalanced one force is greater than the other. So if a force in this direction> is twice as big as the one in <this direction it is unbalanced and will move that way>.
The motion in a body depends on the the balanced or unbalanced forces acting on it. If the sum of the forces is 0 then it is a balanced force and produces no motion if the sum of the forces isn't 0 then it is unbalanced force. The body will move in the direction in which the force is applied. That's about it
When the forces on an object are unbalanced, the object undergoes acceleration. Its direction is the direction of the net effective force, and its magnitude is the magnitude of the net effective force divided by the object's mass.
Unbalanced, because there is a force which gives the object direction. If forces are balanced, the directions cancel each other.
The motion in a body depends on the the balanced or unbalanced forces acting on it. If the sum of the forces is 0 then it is a balanced force and produces no motion if the sum of the forces isn't 0 then it is unbalanced force. The body will move in the direction in which the force is applied. That's about it
The application of force on object (without opposing forces) results in acceleration in the direction of the vector. In this case the unbalanced force to the left will accelerate the object to the right.
It will accelerate in the direction of the resultant (net) force.
Any unbalanced force will cause the object to accelerate in the direction of the net force. This means that applying unbalanced forces to an object will cause it to move. Thinking of applications for moving objects is very easy.