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When a crane caries an object, and that it floats in the air. In order to counter that force to lift the object, a counter weight is found at the back of the crane. thus when the crane is not moving, anti-clockwise force = clockwise force.
The formula is: Acceleration = (force) divided by (mass).600/50 = 12 meters per second2
If a giant crane is lifting a 2.232 x 10^6 kg load, to have a net force of 0 the crane will have to provide a force that counteracts the weight of this load. In this case the force must be 2.187 x 10^7 N.
Work is equal to force x distance. If the force is specified in Newtons, and the distance in meters, then the work is in Joules.Work is equal to force x distance. If the force is specified in Newtons, and the distance in meters, then the work is in Joules.Work is equal to force x distance. If the force is specified in Newtons, and the distance in meters, then the work is in Joules.Work is equal to force x distance. If the force is specified in Newtons, and the distance in meters, then the work is in Joules.
We know that 62500 joules of work was done against gravity of a distance of 25 meters. We need find the force that the crane applied to the boulder. We know that work is equal to the force times the displacement so: W=FΔd 62500=F(25) <-Now divide both sides by 25 to isolate "f" 2500=F We now know that the crane applied a force of 2500 Newtons to move the boulder. We know that this was done in the opposite force of gravity which means that we can use the formula for acceleration due to gravity to find the mass: Fg=gm <- where Fg is the force due to gravity, g is the acceleration due to gravity and m is the mass of the object. 2500=9.81m <- divide both sides by one to find the mass 254.84=m <- this is the mass in kilograms of the boulder 260 kg would be the correct answer due to the lack of significant figures in the distance measurement .
When a crane caries an object, and that it floats in the air. In order to counter that force to lift the object, a counter weight is found at the back of the crane. thus when the crane is not moving, anti-clockwise force = clockwise force.
The formula is: Acceleration = (force) divided by (mass).600/50 = 12 meters per second2
Friction
If a giant crane is lifting a 2.232 x 10^6 kg load, to have a net force of 0 the crane will have to provide a force that counteracts the weight of this load. In this case the force must be 2.187 x 10^7 N.
Work is equal to force x distance. If the force is specified in Newtons, and the distance in meters, then the work is in Joules.Work is equal to force x distance. If the force is specified in Newtons, and the distance in meters, then the work is in Joules.Work is equal to force x distance. If the force is specified in Newtons, and the distance in meters, then the work is in Joules.Work is equal to force x distance. If the force is specified in Newtons, and the distance in meters, then the work is in Joules.
You can use the following theoryIf the resultant force F on an object acts while the object is displaced a distance d, and the force and displacement act parallel to each other, the mechanical work done on the object is the product of F multiplied by d: [3]W = F * d Work=Force*distance,Where work is expressed in joules, force in newtons, and distance in meters.
Newtonian force The amount of force is measured by its ability to stretch or compress a spring.
What is the torque of a 500 Newton force applied to a 30 meters wrench?
We know that 62500 joules of work was done against gravity of a distance of 25 meters. We need find the force that the crane applied to the boulder. We know that work is equal to the force times the displacement so: W=FΔd 62500=F(25) <-Now divide both sides by 25 to isolate "f" 2500=F We now know that the crane applied a force of 2500 Newtons to move the boulder. We know that this was done in the opposite force of gravity which means that we can use the formula for acceleration due to gravity to find the mass: Fg=gm <- where Fg is the force due to gravity, g is the acceleration due to gravity and m is the mass of the object. 2500=9.81m <- divide both sides by one to find the mass 254.84=m <- this is the mass in kilograms of the boulder 260 kg would be the correct answer due to the lack of significant figures in the distance measurement .
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The unit of force is the Newton. Force meters are usuallycalled "Newton meters" in British schools. The unit used is therefore the Newton.
A crane utilizes a combination of simple machines, but the primary one involved in lifting a load is the pulley. The pulley system allows the crane to lift heavy loads with relatively less effort by applying force over a distance.