xtaw la..t saya tanya cik anuar
The block must be released from a vertical height equal to 2 times the radius of the loop at the top of the inclined plane. This height allows the block to have sufficient velocity at the top of the loop to overcome gravity and complete the loop without falling off.
No, changing the distance of a ramp in an inclined plane does not affect the amount of work being done. Work done on an object on an inclined plane is only dependent on the vertical height through which the object is lifted, not the distance along the inclined plane. Work done is calculated as the force applied multiplied by the vertical height.
A decrease in height of the inclined plane will result in a lower mechanical advantage. Mechanical advantage is calculated as the ratio of the length of the inclined plane to the vertical height. Therefore, as the height decreases, this ratio decreases, leading to a lower mechanical advantage.
A ladder can be considered an inclined plane because it forms a sloping surface that allows for easier vertical movement. By leaning the ladder against a wall or structure, it creates an angle which reduces the effort required to climb compared to climbing straight up. Just like an inclined plane, a ladder allows someone to use less force to overcome the vertical height.
A wheelchair ramp is a type of inclined plane, which is a simple machine. It allows a wheelchair user to exert less force to overcome the vertical height of the steps and enter the building more easily.
The initial velocity of an object released from an inclined plane depends on the height from which it is released. The higher the release point, the greater the initial velocity of the object due to the larger potential energy it possesses. This initial velocity will determine the object's motion once it leaves the inclined plane.
No, changing the distance of a ramp in an inclined plane does not affect the amount of work being done. Work done on an object on an inclined plane is only dependent on the vertical height through which the object is lifted, not the distance along the inclined plane. Work done is calculated as the force applied multiplied by the vertical height.
it is due to the fact that the length of an inclined plane(effect arm) is greater than its vertical height(load arm).
A decrease in height of the inclined plane will result in a lower mechanical advantage. Mechanical advantage is calculated as the ratio of the length of the inclined plane to the vertical height. Therefore, as the height decreases, this ratio decreases, leading to a lower mechanical advantage.
MA of inclined plane:Distance moved parallel to slope / vertical distance moved:Reciprocal of sin of incline angle (from horizontal):1 / ( sin ( incline angle ) )
You need to multiply the base by the PERPENDICULAR height. If you know only the INCLINED height, you simply don't have enough information. If you also know the angle, you can calculate the perpendicular height with some simple trigonometry.
The answer depends on what you wish to work out: the angles, height, surface area, volume. Also, you need more information: the vertical or inclined height and whether or not the pyramid is a right pyramid.
A ladder can be considered an inclined plane because it forms a sloping surface that allows for easier vertical movement. By leaning the ladder against a wall or structure, it creates an angle which reduces the effort required to climb compared to climbing straight up. Just like an inclined plane, a ladder allows someone to use less force to overcome the vertical height.
A wheelchair ramp is a type of inclined plane, which is a simple machine. It allows a wheelchair user to exert less force to overcome the vertical height of the steps and enter the building more easily.
The initial velocity of an object released from an inclined plane depends on the height from which it is released. The higher the release point, the greater the initial velocity of the object due to the larger potential energy it possesses. This initial velocity will determine the object's motion once it leaves the inclined plane.
Area = base * height(height being the vertical measure, not the sloped measure)Area = base * height(height being the vertical measure, not the sloped measure)
The ideal mechanical advantage of an inclined plane is a ratio describing the length one has to travel to raise a load by a desired height. To obtain this ratio, divide the length of the plane's sloped face by the height of the inclined plane. IMA = Slope length / height
vertical leap? or height? vertical leap is relative to many aspects like weight height length of legs muscle tone and even race