Tension is a force that pulls or stretches an object, while torsion is a force that causes twisting or rotation in an object. Tension acts along the length of an object, while torsion acts perpendicular to the length of an object.
Spraining your ankle is typically caused by a torsion force, which is a twisting force that causes the ligaments in the ankle to stretch or tear.
If you increase the height of the ramp but not its length, the force needed to push the wheelchair up the ramp will increase. This is because a higher ramp will require more work to overcome gravity and lift the chair to a greater height. As the height increases, the force required to push the wheelchair up the ramp will increase proportionally.
Work is directly proportional to both force and distance. As force increases, the work done will also increase. Likewise, if the distance over which the force is applied increases, the work done will also increase proportionally.
Torsion force is the twisting force applied to an object, causing it to rotate around an axis. Tension force is the pulling force applied to an object, stretching it in the direction of the force. In simple terms, torsion force causes rotation while tension force causes elongation.
Increasing the mass of the objects would increase the gravitational force between them, as force is directly proportional to mass. On the other hand, increasing the distance between the masses would decrease the gravitational force, as force is inversely proportional to distance squared according to the law of gravitation.
The four internal forces are tension, compression, torsion, and shear. Tension is a stretching force, compression is a compressing force, torsion is a twisting force, and shear is a sliding force.
When you increase the length of a lever, you increase the mechanical advantage of the lever. This means that you can exert less force to move the same load. Additionally, increasing the length of the lever can also increase the distance over which the force is applied, allowing for larger movements with less effort.
Yes, it has a force and direction.
To increase the torque of a given force, you can increase the distance from the pivot point (lever arm). This is because torque is the product of force and lever arm length. Increasing either the force or the lever arm length will increase the torque.
Yes. You can increase the period by moving the pendulum to a location where the gravitational force is weaker.Alternatively, you can increase the effective length of the pendulum. The pendulum may be of fixed length, but you can still increase its effective length by adding mass to any point below its centre of gravity.Yes. You can increase the period by moving the pendulum to a location where the gravitational force is weaker.Alternatively, you can increase the effective length of the pendulum. The pendulum may be of fixed length, but you can still increase its effective length by adding mass to any point below its centre of gravity.Yes. You can increase the period by moving the pendulum to a location where the gravitational force is weaker.Alternatively, you can increase the effective length of the pendulum. The pendulum may be of fixed length, but you can still increase its effective length by adding mass to any point below its centre of gravity.Yes. You can increase the period by moving the pendulum to a location where the gravitational force is weaker.Alternatively, you can increase the effective length of the pendulum. The pendulum may be of fixed length, but you can still increase its effective length by adding mass to any point below its centre of gravity.
The increase in length of a spring when a force is applied is called "extension." This phenomenon occurs due to Hooke's Law, which states that the extension of a spring is directly proportional to the force applied to it.