False,
Unless it is a twisted pulley system.
In a class 3 lever, the direction of the input force is opposite to the direction of the output force. The fulcrum is located at one end, the input force is applied between the fulcrum and the output force, making the output force move in the opposite direction to the input force.
In a second-class lever, the direction of the input force is opposite to the direction of the output force. The input force is applied at one end of the lever, while the output force is generated at the opposite end. Examples of second-class levers include wheelbarrows and nutcrackers.
Ur face
No, work output is not always equal to work input. In real-world systems, some amount of energy is typically lost due to inefficiencies such as friction, heat, or other forms of resistance. This means that the work output is often less than the work input in practical applications.
The voltage produced by a generator alternates because the motion of the rotor within the magnetic field causes changes in the direction of the current flow, resulting in a fluctuating voltage output.
In a class 3 lever, the direction of the input force is opposite to the direction of the output force. The fulcrum is located at one end, the input force is applied between the fulcrum and the output force, making the output force move in the opposite direction to the input force.
In a second-class lever, the direction of the input force is opposite to the direction of the output force. The input force is applied at one end of the lever, while the output force is generated at the opposite end. Examples of second-class levers include wheelbarrows and nutcrackers.
yes it changes the direction, and increases the force
A pulley system may cause the direction of the output force to differ from that of the input force, but is not guaranteed to do so. In a simple example, a double pulley could easily result in input and output forces in parallel.
yes.you can get 5v output even when the polarity is reversed. In a 5v battery, if u reverse the polarity, then u'll get the same 5v as output , but in the opposite direction.(i.e.,)-5v(negative 5 volt
Difference Between Alternators and MagnetosAn alternator puts out alternating current [AC]. That means that part of the time electrons flow in one direction in the wiring, and part of the time the electrons flow in the opposite direction. The number of times the direction of current flow changes direction is referred to as "cycles."Even though the output of a magneto may be in pulses, the direction of flow of electrons is always in the same direction and is Direct Current [DC].
if only the direction changes,the input force will be the same as the output force.the mechanical advantage will always be 1.
if only the direction changes,the input force will be the same as the output force.the mechanical advantage will always be 1.
Ur face
use a 3 bevelled gear arrangement akin to what is used in a car differential on the drive axle - it is possible to have a connecting shaft rotating the opposite direction to the original motion of the gears
Output. For example, if you input '2 + 2 =' in a calculator, the 4 that appears is the output.
In an op-amp, an input on the inverting terminal drives the output in the opposite direction, while an input on the non inverting terminal drives the output in the same direction. In a normal closed loop negative feedback configuration, there is feedback from output to inverting input, so that the output becomes a known function of input. So long as you stay within limits, the output will go to whatever value is required to make the inputs be the same.