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To get the work, simply multiply the force by the distance. This assumes that both are in the same direction.
Ok, so a lever can be broken up into two 'sides' with a fulcrum in the middle. This idea simply utilizes the laws set forth for torque, or Force*distance. Static equilibrium (which would be when you input enough force on one side of the lever to balance the other) states the followingF1*D1 = F2*D2Starting from the left side of the lever, for have a force (F1) multiplied by the distance between that force and the fulcrum (D1). This can be set equal to the distance between the fulcrum and the second force, with this distance denoted as D2. If you want to know the input force, you need to know the other force, and both distances. Then you can simply divide. For example say want to know your input force, F2.F2 = (F1*D1)/D2Hope this helps
Force is a vector quantity so it depends upon direction and if force is applying from one side then its opposite side will feel the same quantity of negative force.
When there is more force acting on one side of an object than the other side. Therefore the object will move to the side with less force.
the weight is put on the angle of the lever not the small force pushing it down
it has to do with gravity, weight, friction, torque, and force..... simply put your lateral force (pushing from the side) has to exceed the friction caused by the box and the surface its on
aunt
The function of the simple pulley machine is the transfer the amount of force by utilizing a cable of sorts to lift while the other side is pulled. Simply put, when on side is pulled down, the other side is lifted.
on the side of texsa.
get a speedometer
To get the work, simply multiply the force by the distance. This assumes that both are in the same direction.
Ok, so a lever can be broken up into two 'sides' with a fulcrum in the middle. This idea simply utilizes the laws set forth for torque, or Force*distance. Static equilibrium (which would be when you input enough force on one side of the lever to balance the other) states the followingF1*D1 = F2*D2Starting from the left side of the lever, for have a force (F1) multiplied by the distance between that force and the fulcrum (D1). This can be set equal to the distance between the fulcrum and the second force, with this distance denoted as D2. If you want to know the input force, you need to know the other force, and both distances. Then you can simply divide. For example say want to know your input force, F2.F2 = (F1*D1)/D2Hope this helps
"Palestinian armed groups made clear in their statements that harming civilians was their aim," Sarah Whitson, Middle East director at Human Rights Watch, said. "There is simply no legal justification for launching rockets at populated areas. It´s a war crime" I am not going to side with the war criminals.
No, the Force is not real. The 'dark side' is a reference to anything that is very evil.
Force is a vector quantity so it depends upon direction and if force is applying from one side then its opposite side will feel the same quantity of negative force.
The magnus effect is what makes curve balls curve. It works by making one side of a thrown, spinning object brush past the air faster than the other side. The side of the ball where the spin is in the same direction as the direction of flight has a higher speed, relative to the air, than the other side of the ball, which is spinning backwards to the direction of flight and hence is moving slower relative to the air. The pressure on the baseball is lower on the advancing spin side and higher on the receding spin side, and this creates a difference of air pressure that pushes the ball sideways to the direction of flight toward the advancing spin side.
When there is more force acting on one side of an object than the other side. Therefore the object will move to the side with less force.