It would be a relatively simple matter to answer the question
if it included numbers before each appearance of 'ft'.
You can use the Pythagorean theorem to solve for the actual height of the incline because you know they hypotenuse length of the triangle as well as the angle. sin(theta)*950 = _____( actual height of the ramp ) With this new height value you can determine the minimum work needed to push the car up the ramp. Remember: W=m*g*h =(850)(9.8)(actual height) Hope this helps :)
That really depends on the toaster. Try it out, with your own toaster.
Yes
kiss my butt
If you are in a frictionless room, you can't push off of anything to exert enough force to move away. However, if you have a bottle of compressed gas or liquid, the force of the escaping gas from the container will exert a reaction force to push you where you need to go. If you are near a wall, you can push off of that.
The answer depends on a number of factors: - the weight of the car - the steepness of the incline - the frictions of the of both the car to the incline surface and the pusher to the incline surface
Yes, it makes it easier to push the object up.
* effort needs to move over a greater distance
More force will be required to push an object along the ramp.
You can use the Pythagorean theorem to solve for the actual height of the incline because you know they hypotenuse length of the triangle as well as the angle. sin(theta)*950 = _____( actual height of the ramp ) With this new height value you can determine the minimum work needed to push the car up the ramp. Remember: W=m*g*h =(850)(9.8)(actual height) Hope this helps :)
A push or a pull is a force
The input force would increase as the height of the ramp increased. It wouldn't matter the distance. Ask me another one.
The input force would increase as the height of the ramp increased. It wouldn't matter the distance. Ask me another one.
Also known as an incline push up its when you safely elevate your feet from the ground and do a push up with your hands on the ground. It works your upper pectoral muscles and shoulders the higher the incline the tougher it can be on your shoulders. Make sure whatever you use for your incline is secure like the bottom step of stairs is a good star and the staircase won't move where a chair can be unstable. Good luck.
A ramp exerts no force, just gravity.
The input force would increase as the height of the ramp increased. It wouldn't matter the distance. Ask me another one.
(ignoring friction) > Mass of the object * sine (incline angle) = force down, and parallel to, the slope (kilograms force) This ratio ( force / mass) remains constant regardless of the objects mass, as long as the incline angle remains the same.