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Humans are designed in a way to perform many amazing tasks, however we do and always will make loads of mistakes. This is can be due to a variety of reasons. Machines (when designed and thus built properly) don't suffer from such mistakes and depending on machine type they can outlast a human and do the job much more efficiently. But most machines require human influence to keep performing at their peak.
What else can I help you with?
What can be done to increase the efficiency of the machine?
Mechanical Efficiency is the ratio of Actual mechanical advantage to ideal mechanical advantage.Efficiency will be maximum when Actual mechanical advantage equals that of ideal.But practically not possible.Actual mechanical advantage will be less due to friction,heat,deflection etc.avoiding these loses will increase the machine efficiency.
What is the actual mechanical advantage of the pliers?
You can grip things tightly with them.
A machine that changes only the direction of a force has a mechanical advantage of?
1
A pneumatic device is a machine that derives its mechanical advantage from what?
compress air
How many times a force is multiplied by a machine is the machanical?
The mechanical advantage.
Why is the actual mechanical advantage of a machine different for a machines ideal mechanical advantage?
The actual mechanical advantage of a machine is usually less than its ideal mechanical advantage due to factors like friction, energy loss, and imperfections within the machine. These losses reduce the efficiency of the machine in transferring input force to the output force. Ideal mechanical advantage is based on the design and geometry of the machine, while actual mechanical advantage accounts for real-world limitations and performance.
What is the difference between actual machanical advantage and ideal machanical advantage?
Ideal mechanical advantage is what could be obtained without the effects of gravity and friction lowering the efficiency of the machine. The actual mechanical advantage is what can actually be obtained by the machine.
Why is the ama of a machine always less than the ima of a machine?
The actual mechanical advantage (AMA) of a machine is always less than the ideal mechanical advantage (IMA) due to factors such as friction, inefficiencies in the machine's design, and other losses of energy. As a result, the actual output force of a machine is typically less than the input force required to operate it, leading to a lower actual mechanical advantage compared to the ideal mechanical advantage.
Why do you multiply to find the total mechanical advantage?
The "Ideal Mechanical Advantage" of a simple machine isIMA = output force /input force . To find the 'actual' or real-world mechanical advantage,multiply the IMA by the machine's efficiency.
If you know the input distance and output distance of a machine which of the following can you calculate?
Type your answer here... The actual mechanical advantage.
The more efficient a machine is the closer the actual mechanical advantage is to the?
Perfect efficiency
How is the actual mechanical advantage of a machine determined?
The actual mechanical advantage of a machine is determined by comparing the input force applied to the machine to the output force it produces. It is calculated as the ratio of the output force to the input force, taking into account any inefficiencies or energy losses in the machine.
How does the ideal compare with the actual mechanical advantage?
The ideal mechanical advantage is based on the geometric relationships of a machine's components and assumes no energy losses, while the actual mechanical advantage accounts for friction, inefficiencies, and other factors that can reduce the output compared to the input force. In reality, the actual mechanical advantage is always less than the ideal mechanical advantage due to these energy losses.
What is the actual mechanical advantage?
The actual mechanical advantage is the ratio of the output force to the input force in a machine. It is calculated as the ratio of the resistance force to the effort force. It provides insight into how much a machine amplifies or diminishes the force applied to it.
Actual mechanical advantage is the output force of what?
Actual mechanical advantage is the ratio of the output force to the input force in a simple machine or system. It is a measure of how much a machine amplifies the input force to produce the desired output force.
You test a machine and find that it exerts a force of 5 N for each 1 N of force you exert operating the machine What is the actual mechanical advantage of the machine?
The mechanical advantage is 5.Mechanical Advantage = Output Force/Input Force
Distinguish between theoretical mechanical advantage and actual mechanical advantage How will these compare if a machine is 100 percent efficient?
Theoretical mechanical advantage is the ratio of the input force to the output force without considering friction, while actual mechanical advantage includes frictional losses in the machine. If a machine is 100 percent efficient, there will be no frictional losses, so the theoretical and actual mechanical advantages will be the same, resulting in a 1:1 ratio of input force to output force.
