0
Work = Force x Distance
When multiplying by 10 you simply shift all the digits to the left and append a 0 to the end.
so 150 x 10 = 1500 Joules
Extra Credit
The Joule is defined as the amount of energy expended when a force of one Newton is applied through a distance of one meter.
This kind of question is easier to answer if you learn the descriptive definitions for the SI units.
What else can I help you with?
If it takes N to move a box meters how much work is done on the box?
The work done on the box is given by the formula work = force x distance. More information is needed to calculate the total work done on the box as the amount of force exerted to move the box is required.
How much work was done to move a 10N book 5meters?
The work done to move a 10N book 5 meters can be calculated using the formula: Work = Force x Distance. Therefore, the work done would be 10N x 5m = 50 Joules. This means that 50 Joules of energy was expended to move the book over the specified distance.
It takes 200 N to move a box 10 meters in 8 seconds How much power is required?
Power is calculated as work done divided by time taken. The work done is force multiplied by distance, which in this case is 200 N * 10 m = 2000 J. Plugging in the values, the power required would be 250 Watts.
How much work is done when a force of 75 N applied to a table causes it to move 8 meters?
The application of 75N of force through a distance of 8 meters results in 600 newton-meters = 600 joules of work.
How much work was done to move a 10 N book 5 meters. What power was used if it took 2 sec?
The work done to move the 10 N book 5 meters is 50 Joules (Work = force x distance). The power used is 25 Watts (Power = Work / time).
If it takes 150 N of force to move a box 10 meters then what is the work done on the box?
1,500 j by the war lord ((((((((:
If it takes N to move a box meters how much work is done on the box?
The work done on the box is given by the formula work = force x distance. More information is needed to calculate the total work done on the box as the amount of force exerted to move the box is required.
How much work was done to move a 10N book 5meters?
The work done to move a 10N book 5 meters can be calculated using the formula: Work = Force x Distance. Therefore, the work done would be 10N x 5m = 50 Joules. This means that 50 Joules of energy was expended to move the book over the specified distance.
If it takes Scott 30 newtons of force to move a chair when it is lifted 0.5 meters how much work has Scott done?
force x distance = work 30 N x 0.5 metres = 15joules
It takes 200 N to move a box 10 meters in 8 seconds How much power is required?
Power is calculated as work done divided by time taken. The work done is force multiplied by distance, which in this case is 200 N * 10 m = 2000 J. Plugging in the values, the power required would be 250 Watts.
How much work is done when a force of 75 N applied to a table causes it to move 8 meters?
The application of 75N of force through a distance of 8 meters results in 600 newton-meters = 600 joules of work.
How much work was done to move a 10 N book 5 meters. What power was used if it took 2 sec?
The work done to move the 10 N book 5 meters is 50 Joules (Work = force x distance). The power used is 25 Watts (Power = Work / time).
Calculate the work done to move a dresser 7 meters using a force of 2.5 newtons?
To calculate the work done, you would multiply the force applied (2.5 N) by the distance moved (7 m). Work = Force x Distance. So, the work done to move the dresser 7 meters with a force of 2.5 newtons would be 17.5 joules.
How much work was done to move a 10 n book meters?
open your physics book the answer is 50 j
A person expended 500 newtons to move a full wheelbarrow 30 meters .How much work was done?
help
It takes 300 n to move a box 10 meters 10 seconds how much power is required?
300 W
If takes 200 N to move a box 10 meters in 8 seconds. How much power is requied?
The work done to move the box is calculated as force multiplied by distance: Work = force x distance = 200 N x 10 m = 2000 J. Power is the rate at which work is done, so Power = work / time = 2000 J / 8 s = 250 W. Therefore, 250 Watts of power is required to move the box.
