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How long is a ramp from the top of the pyramid to the ground that has a mechanical advantage of 4?
The height of the Great Pyramid = 139 metres
The slope of a ramp with a mechanical advantage of 4 = 4x139 = 556m
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A stone block is pushed up a ramp that is 120m long and 20m high. what is the ideal mechanical advantage of the ramp?
The ideal mechanical advantage of a ramp is calculated by dividing the length of the ramp by the vertical height. In this case, the ideal mechanical advantage of the ramp is 120m (length) divided by 20m (height) which equals 6. Therefore, the ideal mechanical advantage of the ramp is 6.
A lever has an input arm 50 centimeters and an output arm 40 centimeters long what is the machanical advantage of the lever?
The mechanical advantage of a lever is calculated by dividing the length of the input arm by the length of the output arm. In this case, the mechanical advantage would be 50 cm (input arm) divided by 40 cm (output arm), which equals 1.25. Therefore, the mechanical advantage of the lever is 1.25.
What levers has the largest mechanical advantage?
A lever with a long effort arm and a short load arm has the largest mechanical advantage. This type of lever allows a small input force to exert a greater output force over a shorter distance. An example of this is a crowbar or a wheelbarrow.
If you use a ramp that is m long to move an object upward m then the mechanical advantage of the ramp?
Turtles are purple and thier are no exeptions for hoe purple a Turtle really is and I hope the answer was a lifesaving if not . . . you are some trash and a hue dingos. singed, your local Tonald Drump
Would a short or long ramp have a greater mechanical advantage?
There is a mechanical advantage in using a long, gently sloping ramp than a short steep ramp. If you want to test this remember what goes up must come down and a long ramp gives you more time to react
How long is a ramp from the top of a pyramid to the ground that has a mechanical advantage of 4?
The height of the Great Pyramid = 139 metres The slope of a ramp with a mechanical advantage of 4 = 4x139 = 556m
How long is a ramp from the top of the great pyramid to the ground that has a mechanical advantage of 4?
The height of the great pyramid = 139 metres The slope of a ramp with a mechanical advantage of 4 = 4x139 = 556m
The great pyramid is 146 meters high how long is a ramp from the top of the pyramid to the ground that has a mechanical advantage of 4?
204 inches
What is the theoretical mechanical advantage of a 5 m long inclined plane that has the high end 1 m above the ground?
1/5 = 0.2
What is the ideal mechanical advantage of a lever 7 meters long and 3 meters high?
The ideal mechanical advantage of the bar is 5.
What is the mechanical advantage of a ramp that is 8 m long and 2 m high porch?
The mechanical advantage is 8/2 = 4.
Which has the greater mechanical advantage a wedge that is 6cm long and 3cm wide or a wedge that is 12cm long and 4cm wide explain?
To determine the mechanical advantage of a wedge, you can use the formula: Mechanical Advantage (MA) = Length of the wedge / Width of the wedge. For the first wedge (6cm long, 3cm wide), MA = 6/3 = 2. For the second wedge (12cm long, 4cm wide), MA = 12/4 = 3. Therefore, the second wedge has a greater mechanical advantage of 3 compared to the first wedge's mechanical advantage of 2.
What knife gives best mechanical advantage?
a long and fat knife
What is the mechanical advantage of a 6-m long ramp that extends from a ground-lever sidewalk to a 2-m high porch?
Bigger is better no mater what situation. remember don't try this at home :)
Which has a greater mechanical advantage along or short wide wedge?
a long wedge has a greater mechanical energy then a short wide wedge.
A stone block is pushed up a ramp that is 120m long and 20m high. what is the ideal mechanical advantage of the ramp?
The ideal mechanical advantage of a ramp is calculated by dividing the length of the ramp by the vertical height. In this case, the ideal mechanical advantage of the ramp is 120m (length) divided by 20m (height) which equals 6. Therefore, the ideal mechanical advantage of the ramp is 6.
Is the mechanical advantage a constant value or can it be made to vary?
The mechanical advantage is a numerical relationship among the sizes of physical components of the machine. It's constant as long as the sizes of those parts of the machine are constant.
