no, a percent is always out of 100 if the percent is grater than 100 than it is more than 1 and a fraction is always less than one unless the numerator is grater than the denominator.
Yes that's right."Percent" is always "percent OF" something. It always refers to the starting number.Since 115 is larger than 100, 15% OF 115 is more than 15% OF 100.
It is always less than 1 or 100%.It is always less than 1 or 100%.It is always less than 1 or 100%.It is always less than 1 or 100%.
50% less 46.67% = 3.33%
10 percent less of 125 is 112.5.
Because there is always going to be friction, the efficiency of any machine will always be less then 100 percent.
The efficiency of an actual machine is always less than 100 percent, as no machine can convert all input energy into useful output energy due to factors like friction, heat loss, and inefficiencies in the system.
some energy is always lost to factors like friction, heat, and sound during the operation of a machine, reducing its efficiency below 100%.
input
In a real machine, part of the energy (or power) is always wasted.
No, an ideal machine cannot have an efficiency of 100 percent. This is because some energy is always lost as heat due to factors like friction and resistance. The best an ideal machine can achieve is an efficiency of 100% by having no energy losses.
Machines are never 100% efficient due to factors such as friction, heat loss, and mechanical limitations. Some amount of energy will always be lost during the transfer or transformation process, making it impossible for a machine to achieve perfect efficiency.
No, a simple machine with less output work than input work is said to have less than 100 percent efficiency. Efficiency is a measure of how well a machine converts input work into output work, with 100 percent efficiency meaning that all input work is converted to useful output work.
Entropy.
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.
0.441 of something is always less than a whole one. In fact, it's always 55.9 percent less than a whole one.
False. The mechanical advantage of a machine can be greater than, equal to, or less than 1, depending on the type of machine and how it is designed.