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What is the mechanical advantage when the effort force is 20 and resistance force is 5?
The mechanical advantage is calculated by dividing the effort force by the resistance force. In this case, the mechanical advantage would be 20 divided by 5, which equals 4. This means that for every 1 unit of effort force applied, the machine overcomes 4 units of resistance force.
What else can I help you with?
What is the ration to resistance force to effort force?
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.
What two things you you need to know to calculate mechanical advantage?
To calculate mechanical advantage, you need to know the effort force applied to the machine and the resistance force it is able to overcome. By dividing the resistance force by the effort force, you can determine the mechanical advantage of the machine.
Ratio of resistance force to effort force?
The ratio of resistance force to effort force is known as mechanical advantage. It is calculated by dividing the resistance force by the effort force. A mechanical advantage greater than 1 indicates that the machine makes work easier by increasing the force applied, while a mechanical advantage less than 1 means that the machine increases the distance the object is moved.
Is the resistance force is 40 Newton and and the effort force is 20 Newton and what is the mechanical advantage?
To find the mechanical advantage, divide the resistance force by the effort force. In this case, the mechanical advantage is 40 N / 20 N = 2. This means that the machine can multiply the input force by a factor of 2.
What does the machanical advantage of a first-class lever depend apon?
The mechanical advantage of a first-class lever depends on the relative distances between the effort force, the fulcrum, and the resistance force. The mechanical advantage is calculated as the ratio of the distance from the fulcrum to the effort force to the distance from the fulcrum to the resistance force.
What is the ration to resistance force to effort force?
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.
The ratio of resistance force to effort force?
This ratio is known as mechanical advantage in a simple machine. It indicates how much the machine multiplies the force applied. It can be calculated by dividing the resistance force by the effort force for a particular machine.
What two things you you need to know to calculate mechanical advantage?
To calculate mechanical advantage, you need to know the effort force applied to the machine and the resistance force it is able to overcome. By dividing the resistance force by the effort force, you can determine the mechanical advantage of the machine.
Ratio of resistance force to effort force?
The ratio of resistance force to effort force is known as mechanical advantage. It is calculated by dividing the resistance force by the effort force. A mechanical advantage greater than 1 indicates that the machine makes work easier by increasing the force applied, while a mechanical advantage less than 1 means that the machine increases the distance the object is moved.
Is the resistance force is 40 Newton and and the effort force is 20 Newton and what is the mechanical advantage?
To find the mechanical advantage, divide the resistance force by the effort force. In this case, the mechanical advantage is 40 N / 20 N = 2. This means that the machine can multiply the input force by a factor of 2.
What does the machanical advantage of a first-class lever depend apon?
The mechanical advantage of a first-class lever depends on the relative distances between the effort force, the fulcrum, and the resistance force. The mechanical advantage is calculated as the ratio of the distance from the fulcrum to the effort force to the distance from the fulcrum to the resistance force.
How do you calculate if the effort force was missing?
If you know the amount of work, and distance, set up an algebraic expression. For instance if the amount of work is 40, and the distance is 2 feet, and you let F= effort force, the equation is 2F=40. You solve by dividing by both sides by 2. So, the effort force is 20.
What is the formula for determine ideal mechanical advantage?
the formula for determing ideal mechanical advantage is effort divided by resistance
The ratio of resistance force to effort force.?
The mechanical advantage is the ratio of resistance force to effort force in a simple machine. It indicates how much the machine amplifies force. A mechanical advantage greater than 1 means the machine multiplies force, making it easier to lift or move an object.
What is the ability to move a large resistance with a small effort?
Transportation
How can you find effort force?
Effort force can be found by dividing the load force by the mechanical advantage of the system. The mechanical advantage is the ratio of the load force to the effort force in a simple machine. Alternatively, effort force can be calculated using the formula Effort Force = Load Force / Mechanical Advantage.
What is the ratio of resistance force effort force?
The ratio of resistance force to effort force is equal to the mechanical advantage of a simple machine. This ratio indicates how much the machine amplifies the input force to overcome resistance. It is calculated as the ratio of the distances from the fulcrum to the points where the effort force and resistance force are applied.
