force x distance
force=9800n
distance=250m
9800 x 250= 2450000 Mega Joutes
The work done on the crate would be 40 joules (work = force x distance).
The work done is calculated by multiplying the force applied by the distance moved in the direction of the force. In this case, the distance moved is the height the bundle of lumber is lifted. This information is needed to calculate the work done in this scenario.
The work done to lift 40kg of bricks to a height of 10m can be calculated using the formula: Work = Force x Distance. The force required to lift the bricks is equal to the weight, which is mass x gravity (40kg x 9.8m/s^2). Plug these values into the formula to find the work done.
Work done is equal to force multiplied by distance in the direction of the force. In this case, work done on the car is 12000 N * 2 m = 24000 J.
The work done to lift the box is given by the formula: work = force x distance. Plugging in the values with force = 10.0 N and distance = 0.9 m, the work done would be 9.0 Joules.
11,000/20=550newtons
11,000/20=550newtons
WORKAn engine is used to lift a beam weighing 9800 n up to 145 m how much work must the engine do to lift this beam?Solution1.This is what you know:force: F =9800 n distance: d =145 m2.This is what you need to find out:work: W = ? J3.This is the procedure you need to use:Substitute the known values f= 9800 n and d = 145 m into the work equation:W = Fd = (9800 N)(145 m) = N·m = 1421000 J4.Check your answer:Check your answer by dividing the work you calculated by the distance given in the problem. The result should be the force given in the problem.
work done=m*g*h=53*9.81*7=3.63951 kJ where: m is mass (kg) g is acceleration due to gravity h is lift displacement
The Beam bridge costs less. And much, much smaller. The Beam bridge costs less. And much, much smaller.
The work done on the crate would be 40 joules (work = force x distance).
The work done is calculated by multiplying the force applied by the distance moved in the direction of the force. In this case, the distance moved is the height the bundle of lumber is lifted. This information is needed to calculate the work done in this scenario.
The work done to lift 40kg of bricks to a height of 10m can be calculated using the formula: Work = Force x Distance. The force required to lift the bricks is equal to the weight, which is mass x gravity (40kg x 9.8m/s^2). Plug these values into the formula to find the work done.
Work done is equal to force multiplied by distance in the direction of the force. In this case, work done on the car is 12000 N * 2 m = 24000 J.
The work done to lift the box is given by the formula: work = force x distance. Plugging in the values with force = 10.0 N and distance = 0.9 m, the work done would be 9.0 Joules.
C.50 j
10 J (novanet)