The relationship between friction and the efficiency of a machine is when friction increases, efficiency decreases, and vice versa. That is why you can never have 100% efficiency, because there is always at least a little friction.
They are inversely proportional, meaning, higher friction equals less efficiency.
Friction is one factor that prevents a machine from operating at 100 percent efficiency. Some energy is lost as heat due to friction between moving parts, which reduces the overall efficiency of the machine.
False. Friction can significantly affect the efficiency of a machine by causing energy losses and reducing its overall performance. Minimizing friction through proper lubrication and design can help improve the efficiency of a machine.
Friction can reduce a machine's efficiency by causing energy loss in the form of heat and sound. This can result in increased wear and tear on the machine, leading to reduced performance and potentially higher energy consumption. Minimizing friction through lubrication and proper maintenance can help improve a machine's efficiency.
Friction is a common obstacle to achieving 100% efficiency in a real machine. Friction causes energy to be lost as heat, reducing the overall efficiency of the machine. Additionally, imperfections in materials, wear and tear, and other factors can also contribute to inefficiencies.
Friction is the main force that reduces the efficiency of a machine. Friction between moving parts within the machine can cause energy losses and reduce the overall efficiency of the system. Lubrication and design improvements can help minimize the effects of friction.
Friction is one factor that prevents a machine from operating at 100 percent efficiency. Some energy is lost as heat due to friction between moving parts, which reduces the overall efficiency of the machine.
friction
By reducin friction between the machine parts and also by avoiding any sorts of power losses.
Friction is the reason that you can never have a 100% efficient machine. It is the reason that most machine have horrible efficiency.
In ideal machine input is equal to output . The efficiency of ideal machine is 100% . In real machine input is not equal to output .The efficiency of ideal machine in not 100% . In ideal machine there is no lose of energy . In real machine there is lose of energy . In real machine there is no friction . While in real machine there is friction .
False. Friction can significantly affect the efficiency of a machine by causing energy losses and reducing its overall performance. Minimizing friction through proper lubrication and design can help improve the efficiency of a machine.
Friction.
Friction can reduce a machine's efficiency by causing energy loss in the form of heat and sound. This can result in increased wear and tear on the machine, leading to reduced performance and potentially higher energy consumption. Minimizing friction through lubrication and proper maintenance can help improve a machine's efficiency.
Friction is a common obstacle to achieving 100% efficiency in a real machine. Friction causes energy to be lost as heat, reducing the overall efficiency of the machine. Additionally, imperfections in materials, wear and tear, and other factors can also contribute to inefficiencies.
the relationship between them is that the machines have friction that makes the machine goes
Friction is the main force that reduces the efficiency of a machine. Friction between moving parts within the machine can cause energy losses and reduce the overall efficiency of the system. Lubrication and design improvements can help minimize the effects of friction.
Friction reduces the mechanical advantage (IMA) of a simple machine by causing energy losses in the form of heat. As friction increases, the effectiveness of the machine in transmitting force or lift decreases, ultimately lowering the mechanical advantage.