A balanced force is when two equal forces are applied on an object pushing both ways. Also they are equal forces acting on an object in opposite directions.
When something isn't moving the forces are balanced, eg. Gravity pulls a table down but that table is pushed up by the floor or the ground it stands on so doesn't move.
An UNbalanced force is needed for something to change movement or change direction, eg. a seesaw moving up and down because the forces aren't equal.
A balanced force is a force equally opposed by another force in the opposite direction, meaning that they cancel out each other so the object does not move, unlike an unbalanced force, where the object will move because one force over powers the other.
When something isn't moving the forces are balanced, eg. Gravity pulls a table down but that table is pushed up by the floor or the ground it stands on so doesn't move.
An UNbalanced force is needed for something to change movement or change direction, eg. a seesaw moving up and down because the forces aren't equal.
Unlike balanced forces, we say unbalanced forces when two forces acting on an object are not equal in size.
When a number of forces act on a body simultaneously and the resultant of these forces is zero, then the forces are said to be balanced.
Moment=distance from pivot to source of force x force
Nm= m x N
Moments on either side of an object must be equal for the object to balance.
e.g on a see-saw someone who weighs 1000N sits 1m from the pivot, and someone who weighs 2000N sits 0.5m from the pivot on the other side of the see-saw will balance as in this situation, on both sides of the see- saw Nm=1000
A balanced force is where forces on opposite sides of the object are the same net force (for example, 15 N and -15 N) which makes for the object being at rest. Balanced net force on an object makes for the object ALWAYS being at rest. Also it has to be even on both sides to be a balanced force -Keyaira Pennie
Balanced forces do not cause a change in motion. They are equal in size and opposite in direction.
If the net force is zero, then the forces are balanced. If the net force is not zero, then the forces are not balanced. You can have a balanced pair of forces, but not a pair of balanced forces.
You say that the two forces are in equilibrium.
If the forces are balanced, then by definition the sum of the forces is zero.
Balanced forces do not alter the motion of objects.
Balanced forces acting on an object do not change the object's position.
If the net force is zero, then the forces are balanced. If the net force is not zero, then the forces are not balanced. You can have a balanced pair of forces, but not a pair of balanced forces.
You say that the two forces are in equilibrium.
Unbalanced forces is when the forces are 0N or more. Balanced forces are 0.
If the forces are balanced, then by definition the sum of the forces is zero.
Balanced forces do not alter the motion of objects.
balanced
A balanced group of forces has the same effect as no force at all.
Balanced forces acting on an object do not change the object's position.
If the freezer is stationary, the forces acting on it are likely balanced. The gravitational force pulling it downward is likely balanced by the normal force exerted by the floor, as well as any frictional forces that may oppose its motion. If the freezer is accelerating or moving, the forces may not be balanced.
What two forces? If two forces go in opposite directions, and have the same magnitude, they will be balanced. Otherwise they wont'.
When two forces cancel each other out, they are equal in magnitude and opposite in direction. This results in a net force of zero and no change in the object's motion. An example is a book resting on a table where the force of gravity pulling it down is balanced by the normal force of the table pushing it up.
If the net forces on an object are balanced, the object will remain at rest or continue to move at a constant velocity. You can determine if forces are balanced by calculating the sum of the forces in each direction (e.g., horizontal and vertical) and comparing them. If the sum of the forces in each direction is zero, the forces are balanced.