Wiki User
∙ 9y agoLubricate the slope with grease (except where you would be walking, of course!), or put the weight on a wheeled trolley. You could also use a pulley system, but that would mean pulling the weight up, rather than pushing.
Wiki User
∙ 9y agoThe amount of effort needed to push a 75-pound weight up a ramp depends on the angle of the ramp, the friction present, and whether any external forces are acting on the weight. Generally, the steeper the ramp, the more effort is required to push the weight up. It can be calculated using the equation: force = weight * sin(angle of the ramp).
You can decrease the effort force needed by increasing the length of the ramp, which reduces the steepness of the incline. This decreases the angle at which you are pushing the weight, making it easier to overcome gravity. Alternatively, you can decrease the weight of the object being pushed.
Simply oil the ramp. Although you may not want to, because you will have to push up on an oily ramp, so you will slide down, and so will the crate. --An AP Physics Student Bored in Study Hall
strength
When you push a bow it moves the energy you used to push it is input effort.
The main function of an inclined plane is to decrease the work needed to push an object at an angle uphill.
Consider resistance to be like effort needed to push water through a pipe. If you have a longer pipe, you need to put in more effort to push the water through, as it has further to go. Also skinnier pipes, and pipes with more obstructions also require more effort, so have a higher resistance.
it is called a force
The Russian Revolution weakened the Allied war effort. Russia pulled out of the war, so the Allies needed help.
When you push up on an object, you are applying an additional force that is opposing gravity, increasing the total force acting on the object, including your weight. When you push down on an object, you are applying a force that opposes gravity and counteracts part of the force of gravity acting on the object, hence reducing the effective weight felt by the object.
Russia pulled out of the war, so the Allies needed help. The Russian Revolution weakened the Allied war effort.
The force needed to push an object up a 15-degree incline can be calculated using the formula: Force = Weight * sin(θ), where θ is the angle of the incline in radians. This force is equal to the component of the object's weight that acts perpendicular to the incline.