NO
Both. A small driving gear and a large driven gear is a force multiplier. Whilst a large driving gear and a small driven gear is a speed multiplier
No, a machine cannot create energy, so it cannot increase both speed and force simultaneously. If a machine increases speed, it may do so at the expense of force, and vice versa. This is governed by the conservation of energy principle.
A force multiplier increases the effort force and the mechanical advantage is larger than one (Which means it is easier to move a large load with a small effort). While the speed multiplier does not make the effort easier but makes the load move through a larger distance than the effort. The mechanical advantage of a speed multiplier is usually lower than 1.
It depends on the specific application. A machine that multiplies speed can be beneficial for tasks that require rapid movement, while a machine that multiplies force can be useful for tasks that involve heavy lifting or pushing against resistance. Ultimately, the best option would depend on the specific requirements of the task at hand.
In general, it's difficult to gain both force and speed simultaneously due to the principle of conservation of energy. Machines often trade off between force and speed based on their design, with some prioritizing one over the other. It's important to consider the specific requirements of the task at hand when selecting a machine.
force multiplier
Force Multiplier
force
AnswerA golf club is a speed multiplier
Both. A small driving gear and a large driven gear is a force multiplier. Whilst a large driving gear and a small driven gear is a speed multiplier
No, a machine cannot create energy, so it cannot increase both speed and force simultaneously. If a machine increases speed, it may do so at the expense of force, and vice versa. This is governed by the conservation of energy principle.
A force multiplier increases the effort force and the mechanical advantage is larger than one (Which means it is easier to move a large load with a small effort). While the speed multiplier does not make the effort easier but makes the load move through a larger distance than the effort. The mechanical advantage of a speed multiplier is usually lower than 1.
It depends on the specific application. A machine that multiplies speed can be beneficial for tasks that require rapid movement, while a machine that multiplies force can be useful for tasks that involve heavy lifting or pushing against resistance. Ultimately, the best option would depend on the specific requirements of the task at hand.
Philadelphia gear or Farrel gear are two brands of force multiplier gears. They consist of a driven pinion gear meshed with a larger bull gear driving a machine. The rotational force (torque) exerted on the pinion is multiplied by the difference in size of the bull gear it is driving, converting the input shaft speed into greater torque at the output shaft running at a slower speed.
it is d ratio of the load to the effort applied to move the load if mechanical advantage>1(ie L/E >1), the machine acts as a force multiplier otherwise as a machine to gain speed mechanical advantage is abbreviated as M.A.
In general, it's difficult to gain both force and speed simultaneously due to the principle of conservation of energy. Machines often trade off between force and speed based on their design, with some prioritizing one over the other. It's important to consider the specific requirements of the task at hand when selecting a machine.
a speed multiplier is an object which moves at high speed and multiplies that to create more speed with an object it is trying to move. an example is hitting a tennis ball with a tennis raquet - you swing your arm/hand at a short distance at high speed and great effort so travels a great distance at an even higher speed. the distance the ball moves is large so the force by your arm/hand is small. hope this helps! :)speed multiplier- machine that requires a small movement of an effort to produce a large movement of a load, such as a third class lever.source: Pearson Science S.B