800j
A force of 20 newtons acting through a distance of 40 meters produceswork equal to (20 x 40) = 800 newton-meters = 800 joules.The weight of the cart doesn't matter.
the resistence force will be equal to 50 Newtons times the distance from the point of the effort force to the object along the lever.
10 N
The effort required would be proportional to the resistance.
The effort required is directly proportional to the sine of the angle of inclination.Since the sine of an angle increases with increase in angle, therefore the effort required also increases.
A force of 20 newtons acting through a distance of 40 meters produceswork equal to (20 x 40) = 800 newton-meters = 800 joules.The weight of the cart doesn't matter.
Newtons! :)
Newtons
the resistence force will be equal to 50 Newtons times the distance from the point of the effort force to the object along the lever.
It rotates freely until it is required to do work. As soon as a load is placed across the output more effort will be required to rotate the Dynamo.
10 N
Effort force:Load force. For example, if you put in 10 newtons of force and the load force was exerting 5 newtons the velocity ratio would be 2:1
The allusion to Herculean effort refers to an exceptionally great and difficult task or undertaking. It originates from the myth of Hercules, who performed twelve extraordinary labors that required immense strength, skill, and determination. When someone mentions a Herculean effort, they are highlighting the monumental nature of the challenge being faced.
The effort required would be proportional to the resistance.
No. Are you serious? Think about the number of cars coming across the border and the amount of time and effort required to do so. I've personally traveled across the border a number of times and have never been searched.
The effort required is directly proportional to the sine of the angle of inclination.Since the sine of an angle increases with increase in angle, therefore the effort required also increases.
This will occur if the fulcrum is closer to the load than the effort.