Wiki User
∙ 12y agoif large force is applied keeping the minimum moment arm then it produces a very small torque or even no torque.
Wiki User
∙ 12y agoA large force can produce a small or zero torque if the force is applied at a point where the lever arm (distance from the point of rotation to the line of action of the force) is very small or zero. Torque is calculated as force multiplied by lever arm, so a small lever arm can result in a small or zero torque even with a large force.
A large force produces a small torque when it is applied close to the axis of rotation, resulting in a smaller lever arm. Conversely, a small force can produce a large torque when applied farther from the axis of rotation, creating a larger lever arm which amplifies the effect of the force. This relationship is described by the equation torque = force x lever arm, so increasing the lever arm can compensate for a smaller force to generate a larger torque.
Yes, a small force applied at a greater distance from the pivot point can produce a greater torque than a large force applied closer to the pivot point. This is because torque is the product of force and distance.
A smaller force can produce a large torque if it is applied farther away from the pivot point. Torque is the product of force and distance, so increasing the distance from the pivot point magnifies the effect of the force. This lever arm length is a key factor in determining the torque produced by a force.
A small force applied to a small object or a large force applied to a large object can both produce significant changes in their motion. This is because the effect of a force is influenced by the mass of an object - a greater mass will require more force to produce the same acceleration.
A larger handle provides more leverage, making it easier to apply force and turn the nut. This leverage increases the torque applied to the nut, requiring less effort from the person turning the wrench.
A large force produces a small torque when it is applied close to the axis of rotation, resulting in a smaller lever arm. Conversely, a small force can produce a large torque when applied farther from the axis of rotation, creating a larger lever arm which amplifies the effect of the force. This relationship is described by the equation torque = force x lever arm, so increasing the lever arm can compensate for a smaller force to generate a larger torque.
Yes, a small force applied at a greater distance from the pivot point can produce a greater torque than a large force applied closer to the pivot point. This is because torque is the product of force and distance.
A smaller force can produce a large torque if it is applied farther away from the pivot point. Torque is the product of force and distance, so increasing the distance from the pivot point magnifies the effect of the force. This lever arm length is a key factor in determining the torque produced by a force.
An angular force would produce a large torque like angular momentum of a spinning wheel.
It has to do with a type of force called torque. When you push down on a lever, the force you push with is multiplied by the length of the lever to produce a torque. If you have a very long lever, then you are multiplying your pushing force by a big number and can produce a big torque. It's an easy way to get a large force with little effort.
An angular force would produce a large torque like angular momentum of a spinning wheel.
Yes, it is possible for a smaller force to have a large torque because it is usually located at a much greater distance from the center of rotation. Torque is calculated by multiplying the distance by the force.
It applies a small amount of force to produce a large amount of force.
A small force applied to a small object or a large force applied to a large object can both produce significant changes in their motion. This is because the effect of a force is influenced by the mass of an object - a greater mass will require more force to produce the same acceleration.
They need torque in order to pull a heavy load. The bigger the engine the more torque it can produce. The use of Turbo Chargers & computer management has made it possible to downsize truck engines somewhat but they are still very large when compared to an automobile engine.
A larger handle provides more leverage, making it easier to apply force and turn the nut. This leverage increases the torque applied to the nut, requiring less effort from the person turning the wrench.
A lever relies on the principle of torque, where the product of force and distance from the pivot point must be equal on both sides to achieve balance. By increasing the distance from the fulcrum, a smaller force can counteract a larger force on the other side of the lever. This relationship allows for mechanical advantage and force multiplication.