You push a refrigerator with a force of 50 N and it moves 3 meters across the floor. How much work is it?
W = F * d
F = 50 N
d = 3m
plug it in
Well, pushing a refrigerator is no laughing matter! But since you asked for humor, let's see if we can make it a bit more fun.
So, technically speaking, work is calculated by multiplying the force applied by the distance covered. In this case, you pushed the fridge with a force of 50 N, and it moved 3 meters.
So, the work done is just like trying to find the right spot for a clown car at the circus - it's all about the distance! In this case, we have 50 N multiplied by 3 meters, which gives us a total of 150 joules of work done.
Now, if you happen to be a strong clown with an excellent sense of balance, you might consider applying to be a human refrigerator mover in your spare time!
To calculate the work done on the refrigerator, you need to use the formula:
Work = Force × Distance
Given that you pushed the refrigerator with a force of 50 N and it moved 3 meters across the floor, you can substitute these values into the formula:
Work = 50 N × 3 m
Now you can calculate the work:
Work = 150 Joules (J)
Therefore, the work done on the refrigerator is 150 Joules.
To determine the amount of work done when pushing a refrigerator, we can use the formula:
Work = Force x Distance
In this case, the force applied is 50 N and the distance moved is 3 meters. So, to calculate the work done, you simply multiply the force by the distance:
Work = 50 N x 3 m
Work = 150 N·m
The unit of work is called a "Newton-meter" (N·m), also known as a joule (J). Therefore, the work done in pushing the refrigerator is 150 joules (J).