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How much force can an arm withstand before being torn off?
The amount of force needed to tear off an arm varies depending on factors like the person's size, muscle strength, and angle of force. However, a human arm can typically withstand around 1,000-1,500 pounds of force before being torn off. Force applied suddenly or at a certain angle may cause more damage than a gradual increase in force.
The force lever uses to lift a load is?
determined by the length of the lever arm and the weight of the load. The longer the lever arm, the less force is needed to lift the load. The force needed is inversely proportional to the length of the lever arm.
THE distance from the fulcrum to the resistance force in a lever is called the?
The distance from the fulcrum to the resistance force in a lever is called the load arm or effort arm. This measurement helps determine the mechanical advantage of the lever system and how much force is needed to balance or move a load.
What is the formula in getting te effort force in lever?
The formula to calculate effort force in a lever is Effort Force = Load Force x Load Arm Length / Effort Arm Length. This formula takes into account the load force being lifted, the length of the load arm, and the length of the effort arm to determine the amount of effort force needed to lift the load.
What is the effect on the effort force used when the length of the effort arm is decreased?
The force you are referring to is called torque. here is an example: you have 2 wrenches, one with a short handle and the other with a long handle, and 2 identical bolts. The force required for the longer wrench to turn the bolt is less than the force required for the short to turn the bolt. This is because the longer the handle the greater the Torque and therefore less force needs to be applied. summary: longer "effort arm"=more torque= less force needed shorter "effort arm"=less torque=more force needed I hope this answers your question
How much force can an arm withstand before being torn off?
The amount of force needed to tear off an arm varies depending on factors like the person's size, muscle strength, and angle of force. However, a human arm can typically withstand around 1,000-1,500 pounds of force before being torn off. Force applied suddenly or at a certain angle may cause more damage than a gradual increase in force.
The force lever uses to lift a load is?
determined by the length of the lever arm and the weight of the load. The longer the lever arm, the less force is needed to lift the load. The force needed is inversely proportional to the length of the lever arm.
How much force does take to break an arm?
The amount of force required to break an arm can vary significantly depending on factors such as the angle of impact, the strength of the bone, and the age of the individual. Generally speaking, it can take anywhere from 3,000 to 12,000 newtons of force to break a human arm bone. This force can be generated through various means such as a fall, a direct blow, or a sudden twisting motion. It's important to note that bone strength and density play a significant role in determining the force needed to cause a fracture.
THE distance from the fulcrum to the resistance force in a lever is called the?
The distance from the fulcrum to the resistance force in a lever is called the load arm or effort arm. This measurement helps determine the mechanical advantage of the lever system and how much force is needed to balance or move a load.
What is the formula in getting te effort force in lever?
The formula to calculate effort force in a lever is Effort Force = Load Force x Load Arm Length / Effort Arm Length. This formula takes into account the load force being lifted, the length of the load arm, and the length of the effort arm to determine the amount of effort force needed to lift the load.
What is the effect on the effort force used when the length of the effort arm is decreased?
The force you are referring to is called torque. here is an example: you have 2 wrenches, one with a short handle and the other with a long handle, and 2 identical bolts. The force required for the longer wrench to turn the bolt is less than the force required for the short to turn the bolt. This is because the longer the handle the greater the Torque and therefore less force needs to be applied. summary: longer "effort arm"=more torque= less force needed shorter "effort arm"=less torque=more force needed I hope this answers your question
Which lever has the largest mechanical advantage?
the one with the fulcrum closer to the weight you needed to lift
What does for granted mean?
Answer For granted: it means for example your arm (lets say your left one) that you couldn't move it at all, you would then start to realize how much you needed to you that arm and you never really realized how much you needed that arm and now you realize how much. That is what for granted means.
What grant mean?
Answer For granted: it means for example your arm (lets say your left one) that you couldn't move it at all, you would then start to realize how much you needed to you that arm and you never really realized how much you needed that arm and now you realize how much. That is what for granted means.
How does the length of the effort arm for a lever affect the amount of required effort force?
The longer the effort arm of a lever, the less effort force is needed to lift a load. This is because a longer effort arm increases the leverage, allowing a small effort force to lift a greater load. Conversely, a shorter effort arm requires a greater effort force to lift the same load.
The human arm is example of which class of lever?
The human arm is an example of a third-class lever. In this type of lever system, the effort force is between the fulcrum and the resistance force. The bicep muscle provides the effort force, the elbow joint acts as the fulcrum, and the object being lifted is the resistance force.
How can you decrease the amount of force needed to lift a load with a lever?
You can decrease the force needed to lift a load with a lever by increasing the length of the lever arm. By moving the pivot point or fulcrum closer to the load, you can reduce the amount of force required to lift the load.
