No machine can increase or multiply work. The work that comes out of a machine
is theoretically the same as what goes in, but in the real world, what comes out
is always a little less than what went in.
Work is (force) multiplied by (distance). A machine can multiply or increase the
force or the distance, but whichever one it multiplies, it divides the other one
by the same amount. So the product of (force) times (distance) doesn't change.
A lever is a simple machine that can multiply the distance you apply force over. By adjusting the placement of the fulcrum, you can increase the distance the load moves relative to the distance you push or pull on it.
Some examples of simple machines that can help multiply speed include gears, pulleys, and levers. These machines work by trading off force for speed, allowing input forces to produce greater output speeds.
B. Machines can increase the total work done. C. A machine increases the amount of work done by changing the direction or magnitude of the input force.
Some examples of machines that use friction to work include car brakes, clutches, and sanding machines. In each of these cases, friction is harnessed to slow down or stop movement or to increase the grip between two surfaces.
Machines make work easier by allowing tasks to be completed more quickly and with less effort from humans. Even if the same amount of work is required, machines can increase efficiency, productivity, and precision compared to manual labor. This ultimately saves time and reduces the physical strain on workers.
they increase productivity but decrease jobs
They increase the amount of work over a longer period of time.
A lever is a simple machine that can multiply the distance you apply force over. By adjusting the placement of the fulcrum, you can increase the distance the load moves relative to the distance you push or pull on it.
Some examples of simple machines that can help multiply speed include gears, pulleys, and levers. These machines work by trading off force for speed, allowing input forces to produce greater output speeds.
B. Machines can increase the total work done. C. A machine increases the amount of work done by changing the direction or magnitude of the input force.
Some examples of machines that use friction to work include car brakes, clutches, and sanding machines. In each of these cases, friction is harnessed to slow down or stop movement or to increase the grip between two surfaces.
Simple machines are very useful in doing work as they speed up and increase production.
It's a 4.3% increase. Subtract 127375 from 132885 & divide that number by 127375. Then multiply by 100.
how is machines related to work
Machines make work easier by allowing tasks to be completed more quickly and with less effort from humans. Even if the same amount of work is required, machines can increase efficiency, productivity, and precision compared to manual labor. This ultimately saves time and reduces the physical strain on workers.
Nothing can multiply the input work. The best that any ideal, perfect gizmo can dois to put out exactly the same amount of work as you put into it, but there's noreal gizmo that even does that. Every real gizmo in the world puts out less workthan you put into it.
To increase by 6% means to increase by 6/100. That is, you have to multiply the number - in this case 30 - by 1.06 (which is 1 + 6/100).