Sure, if they're applied at different distances from the center of rotation.
they have the certain directions and magnitude
Their magnitude and direction
Magnitude and direction
Magnitude and direction.
No, they are not. The forces are balanced only when forces of equal magnitude are acting in the opposite direction.
they have the certain directions and magnitude
The magnitude of a force is its 'size' or 'strength', regardless of its direction.
Magnitude and direction.
I can't see them from here, but other than magnitude, the only other thing about two forces that can be different is their direction.
Their magnitude and direction
A vector is a quantity with magnitude and direction. Since force has magnitude and direction, it is a vector
There is no such thing as the direction or magnitude of an object. The direction and magnitude of its speed, acceleration, or momemtum, or of the forces on it, are represented by vectors.
Magnitude and direction
Magnitude and direction.
Well, apart from two forces acting on the same point, they can act at different points. Thus, even if you have forces of equal magnitude in opposite directions, the object can start to rotate.Thus, there are two conditions for an object to be in equilibrium:1. The sum of all forces is zero.2. The sum of all torques is zero.Torque is the term used for forces that can cause rotation.Well, apart from two forces acting on the same point, they can act at different points. Thus, even if you have forces of equal magnitude in opposite directions, the object can start to rotate.Thus, there are two conditions for an object to be in equilibrium:1. The sum of all forces is zero.2. The sum of all torques is zero.Torque is the term used for forces that can cause rotation.Well, apart from two forces acting on the same point, they can act at different points. Thus, even if you have forces of equal magnitude in opposite directions, the object can start to rotate.Thus, there are two conditions for an object to be in equilibrium:1. The sum of all forces is zero.2. The sum of all torques is zero.Torque is the term used for forces that can cause rotation.Well, apart from two forces acting on the same point, they can act at different points. Thus, even if you have forces of equal magnitude in opposite directions, the object can start to rotate.Thus, there are two conditions for an object to be in equilibrium:1. The sum of all forces is zero.2. The sum of all torques is zero.Torque is the term used for forces that can cause rotation.
No, they are not. The forces are balanced only when forces of equal magnitude are acting in the opposite direction.
All forces have direction and magnitude