The object being moved in a lever is called the load, resistance, or weight. It is the object that the lever is being used to lift or move.
The object being moved by a lever is called the load. The lever itself applies a force to the load to move it.
The load or object being moved on a lever is called the resistance or load force. It is the weight or force that the lever must overcome in order to achieve the desired movement or action.
The object moved by a lever is called the load or the resistance. It is the weight or item that the lever is used to lift or move.
resistance force.
A lever is a simple machine consisting of a rigid bar that rotates around a fixed point called the pivot or fulcrum. The load is the object being moved by the lever, and the effort is the force applied to the lever to move the load.
The object being moved by a lever is called the load. The lever itself applies a force to the load to move it.
The load or object being moved on a lever is called the resistance or load force. It is the weight or force that the lever must overcome in order to achieve the desired movement or action.
The object moved by a lever is called the load or the resistance. It is the weight or item that the lever is used to lift or move.
resistance force.
A lever is a simple machine consisting of a rigid bar that rotates around a fixed point called the pivot or fulcrum. The load is the object being moved by the lever, and the effort is the force applied to the lever to move the load.
The lever consists of a fulcrum (pivot point), effort (force applied), and load (object being moved). The fulcrum acts as the point of support, the effort is the force applied to move the load, and the load is the object being lifted or moved. The lever allows for the amplification or redirection of force to make work easier.
A simple machine is mechanical device that is non-powered. It changes the direction of a force. Some examples of a simple machine include a wheel and axle, a wedge, and a pulley.
A CD is a class 1 lever, where the fulcrum (pivot point) is located between the effort (force applied) and the load (object being moved).
A seesaw is a first-class lever because the fulcrum (pivot point) is positioned between the effort (force applied) and the load (object being moved).
The effort of a lever is the force applied to the lever to move an object. It is the force needed to overcome the resistance of the load being lifted or moved by the lever. The relationship between the effort and the load is determined by the length of the lever arms.
No. In a first class lever, the fulcrum is in the middle. Such as see-saws.
The human arm is primarily a third-class lever. The effort (force) is generated by the muscles in the arm, the fulcrum is the elbow joint, and the load (resistance) is the object being lifted or moved by the hand.