Friction.
friction and other environmental forces ar responsible for <100 % efficiencies of machines.
Friction is the force that prevents all machines from being 100 percent efficient. It produces a resisting force that hinders the machine's complete functioning. Reducing friction will enhance efficiency.
High-efficiency machines do more for less and are therefore more desirable than a low-efficiency machine.AnswerHigher efficiency means lower energy losses and, therefore, such machines are more economical than low-efficiency machines.
Efficiency of the machine is reduced due to loss of energy by friction.
No, there is not such thing as an ideal machine; it's just an idea.
friction and other environmental forces ar responsible for <100 % efficiencies of machines.
Friction is the force that prevents all machines from being 100 percent efficient. It produces a resisting force that hinders the machine's complete functioning. Reducing friction will enhance efficiency.
High-efficiency machines do more for less and are therefore more desirable than a low-efficiency machine.AnswerHigher efficiency means lower energy losses and, therefore, such machines are more economical than low-efficiency machines.
A high efficiency machine will produce more of what is it that you want with the same power as the low efficiency one. In other words, for a low efficiency machine do as much as a high efficiency one, you have to give it more power (energy).
Efficiency of the machine is reduced due to loss of energy by friction.
automation.
That is called the machine's efficiency.
That is called the machine's efficiency.
No, there is not such thing as an ideal machine; it's just an idea.
frictionIn real machines, as opposed to ideal machines, there is always friction that reduces the efficiency of the machine. Lubricants like oil can be used to reduce friction and improve efficiency.
they reduse the friction between the machine parts.
In an ideal frictionless system, the work input equals the output and force. Your Welcome!!!