Wiki User
β 13y agothe resistence force will be equal to 50 Newtons times the distance from the point of the effort force to the object along the lever.
Wiki User
β 13y agoIf the effort force for a lever is 50 Newtons and there is no friction, then the resistance force would also be 50 Newtons in an ideal situation with a first-class lever and IMAAMA. This is because in this case, the input force (effort force) is equal to the output force (resistance force) due to the principle of moments.
The ratio of the resistance force to the effort force is called mechanical advantage. It represents how much a machine can multiply the input force to overcome resistance.
The force that opposes the effort force is called the resistance force. It acts in the opposite direction to the effort force and may come from factors like friction or gravity.
The lower the coefficient of friction, the lower the resistance to sliding between two surfaces. A lower coefficient of friction means that it is easier for one surface to slide past the other with less force or effort required.
The opposing force to the effort force is called the resistance force. This force acts in the opposite direction of the effort force and can make it more difficult to move an object. The relationship between the effort force and the resistance force determines the overall motion of the object.
In a machine, the effort force tries to overcome the resistance force. The effort force is applied to the machine in order to move or lift the resistance force, which is the force that opposes the motion or lifting action. The difference between the effort force and the resistance force determines the mechanical advantage of the machine.
The ratio of the resistance force to the effort force is called mechanical advantage. It represents how much a machine can multiply the input force to overcome resistance.
The force that opposes the effort force is called the resistance force. It acts in the opposite direction to the effort force and may come from factors like friction or gravity.
The lower the coefficient of friction, the lower the resistance to sliding between two surfaces. A lower coefficient of friction means that it is easier for one surface to slide past the other with less force or effort required.
The opposing force to the effort force is called the resistance force. This force acts in the opposite direction of the effort force and can make it more difficult to move an object. The relationship between the effort force and the resistance force determines the overall motion of the object.
In a machine, the effort force tries to overcome the resistance force. The effort force is applied to the machine in order to move or lift the resistance force, which is the force that opposes the motion or lifting action. The difference between the effort force and the resistance force determines the mechanical advantage of the machine.
Newtons! :)
Newtons
To calculate tractive effort, you need to know the weight of the vehicle or object being pulled and the coefficient of friction between the tires or wheels and the surface. Tractive effort is calculated by multiplying the weight by the coefficient of friction. This gives you the force required to move the object against resistance.
Resistance force is a force that opposes the motion or movement of an object. It can come from factors such as air resistance, friction, or other external forces. In physics, resistance force acts in the opposite direction of the applied force, slowing down or hindering the object's motion.
In a machine, the effort force you apply is used to overcome a resistance force, such as the force of friction, gravity, or inertia. The goal of the machine is to make it easier for you to move or lift objects by increasing efficiency or changing the direction of the force applied.
resistance,effort
The mechanical advantage is given by the ratio of resistance force to effort force. It represents the factor by which a simple machine multiplies the force applied to it. Mathematically, it can be calculated as mechanical advantage = resistance force / effort force.