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.
The power required to move the chair can be calculated using the formula Power = force x distance ÷ time. Plugging in the values: P = 51 N x 5 m ÷ 15 s = 17 Watts. Therefore, it would take approximately 17 Watts of power to move the chair 5 meters in 15 seconds using a force of 51 Newtons.
3,000 J
Energy in some form must be expended, if the machine is 100 percent efficient the work done in Joules will equal the energy input in Joules, but of course machines are never 100 percent efficient, there are always some losses.
If you push 26 meters with a force of 89 newtons, you do (26 x 89) = 2,314 joules of work.It makes no difference what you're pushing, or what it's mass is.
The force required to move a car depends on various factors such as the weight of the car, road conditions, and incline. On average, it can take anywhere from a few hundred to a couple thousand newtons of force to move a car.
The power required to move the chair can be calculated using the formula Power = force x distance ÷ time. Plugging in the values: P = 51 N x 5 m ÷ 15 s = 17 Watts. Therefore, it would take approximately 17 Watts of power to move the chair 5 meters in 15 seconds using a force of 51 Newtons.
3,000 J
Energy in some form must be expended, if the machine is 100 percent efficient the work done in Joules will equal the energy input in Joules, but of course machines are never 100 percent efficient, there are always some losses.
The force required to move a car depends on various factors such as the weight of the car, road conditions, and incline. On average, it can take anywhere from a few hundred to a couple thousand newtons of force to move a car.
If you push 26 meters with a force of 89 newtons, you do (26 x 89) = 2,314 joules of work.It makes no difference what you're pushing, or what it's mass is.
If you use the same force to move a larger mass the same distance, it will take longer (the acceleration rate is less), so while the work done (force * distance) is the same, the power rating is diminished.
how many years will take it los angeles to move 1000 meters north
The work done to lift the box can be calculated using the formula: work = force x distance. The force required would be equal to the weight of the box, which is the mass of the box multiplied by gravity (9.8 m/s^2). The distance is given as 0.5 meters. Calculate the force needed to lift the box (mass x gravity), then multiply it by the distance to get the work done in Joules.
A lot.
To answer this question and ones like it, try exaggerating. Does it take the same amount of force to throw a cannon ball 3 meters as it does to throw a golf ball 3 meters?
The work done to lift the log can be calculated using the formula: Work = Force x Distance. In this case, the force is 5000 N and the distance is 5 meters. Therefore, the work required to lift the log 5 meters would be 5000 N x 5 m = 25000 Joules.
Take the number of centimeters, move the decimal point 2 places this way and you have centimeters.