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How do you work out the gradiant on a ramp?
Divide the height of the ramp by the length of the ramp (rise over run).
Which has a greater mechianical advantage short ramp and a long ramp both reach a height of 1m?
The long ramp.
Vertical height of the ramp will be 10 feet horizontal base of the ramp will be 15 feet what is the length of the downward sloping side of the ramp?
a2 +b2=c2102 + 152 =c2c=18.03 feet
What does a 10 percent ramp look like?
it is a relatively shallow ramp. every single unit that it gains in height, it makes an equivalent TEN units in length
What is the volume of a ramp?
I think since a ramp is a rectangular pyramid you would use the formula Volume= one-third times length times width times height
Which describes how the IMA of this ramp compares with the IMA of the ramp that has a height of 1m?
The ideal mechanical advantage (IMA) of a ramp with a greater height will be higher compared to a ramp with a shorter height. This is because the IMA is calculated by dividing the length of the ramp by the height, meaning a higher height will result in a larger IMA.
What is the relationship between the height of the ramp and it and its ideal mechanical advantage?
The ideal mechanical advantage of a ramp is directly related to the height of the ramp. The ideal mechanical advantage is calculated as the ratio of the length of the ramp to its vertical height. So, the higher the ramp, the greater the ideal mechanical advantage.
What describes how the IMA of this ramp compares with the IMA of the ramp that has a height of 1m?
The ideal mechanical advantage (IMA) of a ramp is calculated as length divided by height. Therefore, the IMA of a ramp with greater height will be smaller than the IMA of a ramp with a height of 1m. This means that a taller ramp will require less effort but over a longer distance to overcome gravitational force compared to a ramp with a height of 1m.
How do you think the potential energy will change if you change the length of the ramp?
If you increase the length of the ramp, the potential energy at the top of the ramp will also increase because the object has been raised to a greater height. Conversely, if you decrease the length of the ramp, the potential energy will decrease as the object is raised to a lower height.
How do you work out the gradiant on a ramp?
Divide the height of the ramp by the length of the ramp (rise over run).
How would the input force needed to push a wheelchair up a ramp change if you increase the height of the ramp but not its lenght?
If you increase the height of the ramp but not its length, the force needed to push the wheelchair up the ramp will increase. This is because a higher ramp will require more work to overcome gravity and lift the chair to a greater height. As the height increases, the force required to push the wheelchair up the ramp will increase proportionally.
Which has a greater mechianical advantage short ramp and a long ramp both reach a height of 1m?
The long ramp.
The distance from the ground to the floor of a trailer is 20 inches. The length of the ramp is 50 inches. What is the mechanical advantage of this simple machine?
The mechanical advantage of a ramp can be calculated as the ratio of the length of the ramp to the vertical height it spans. In this case, the mechanical advantage is 50 inches (length of the ramp) divided by 20 inches (vertical height), which equals 2.5. So, the mechanical advantage of this ramp is 2.5.
Vertical height of the ramp will be 10 feet The horizontal base of the ramp will be 15 feet What will be the length of the downward sloping side of the ramp?
18 feet
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.
Does the height of a ramp affects the acceleration?
The height of a ramp does impact the acceleration of an object rolling down it. The higher the ramp, the greater the gravitational potential energy, which gets converted into kinetic energy as the object accelerates down the ramp. This can result in a faster acceleration compared to a lower ramp.
Ernest built an access ramp to his house. It has a horizontal length of 8 feet, a vertical height of 3.9 feet, and the length of the ramp is 8.9 feet.Is the statement true or falseThe ramp is perfectly square?
true
