If the effort needed is less than the load, then mechanical advantage of the machine is: 1. Greater than 1 2. Less than 1 3. Equal to one 4. None of these

Physics

If the effort needed is less than the load, then mechanical advantage of the machine is:
Greater than 1
Less than 1
Equal to one
None of these

Machines

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Answer

Greater than 1

Reason — Mechanical advantage (M.A.) is defined as the ratio of the load force to the effort force. When the effort force required is less than the load force, the mechanical advantage is greater than one, indicating that the machine amplifies the input force to overcome the load.

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Physics

If the effort needed is less than the load, then mechanical advantage of the machine is:
Greater than 1
Less than 1
Equal to one
None of these

Machines

Answer

Related Questions

The correct relationship between the mechanical advantage (M.A.), velocity ratio (V.R.) and efficiency (η) is:
M.A. = η x V.R.
V.R. = η x M.A.
η = M.A. x V.R.
None of these

Which of the following relations is wrong?
Work input = Effort x Displacement of effort
Work output = Load x Displacement of load
Efficiency = Work input / Work output
Mechanical advantage = Velocity ratio x Efficiency

Select the incorrect statement:
A machine always has efficiency less than 100%.
The mechanical advantage of a machine can be less than 1.
A machine can have mechanical advantage greater than the velocity ratio.
A machine can be used as a speed multiplier.

The lever for which mechanical advantage is less than 1 has:
Fulcrum at the mid-point between load and effort.
Load between effort and fulcrum.
Effort between fulcrum and load.
Load and effort acting at the same point.

Physics

If the effort needed is less than the load, then mechanical advantage of the machine is:Greater than 1Less than 1Equal to one None of these

Machines

Answer

Related Questions

The correct relationship between the mechanical advantage (M.A.), velocity ratio (V.R.) and efficiency (η) is:M.A. = η x V.R.V.R. = η x M.A.η = M.A. x V.R.None of these

Which of the following relations is wrong?Work input = Effort x Displacement of effortWork output = Load x Displacement of loadEfficiency = Work input / Work outputMechanical advantage = Velocity ratio x Efficiency

Select the incorrect statement:A machine always has efficiency less than 100%.The mechanical advantage of a machine can be less than 1.A machine can have mechanical advantage greater than the velocity ratio.A machine can be used as a speed multiplier.

The lever for which mechanical advantage is less than 1 has:Fulcrum at the mid-point between load and effort.Load between effort and fulcrum.Effort between fulcrum and load.Load and effort acting at the same point.

If the effort needed is less than the load, then mechanical advantage of the machine is:
Greater than 1
Less than 1
Equal to one
None of these

The correct relationship between the mechanical advantage (M.A.), velocity ratio (V.R.) and efficiency (η) is:
M.A. = η x V.R.
V.R. = η x M.A.
η = M.A. x V.R.
None of these

Which of the following relations is wrong?
Work input = Effort x Displacement of effort
Work output = Load x Displacement of load
Efficiency = Work input / Work output
Mechanical advantage = Velocity ratio x Efficiency

Select the incorrect statement:
A machine always has efficiency less than 100%.
The mechanical advantage of a machine can be less than 1.
A machine can have mechanical advantage greater than the velocity ratio.
A machine can be used as a speed multiplier.

The lever for which mechanical advantage is less than 1 has:
Fulcrum at the mid-point between load and effort.
Load between effort and fulcrum.
Effort between fulcrum and load.
Load and effort acting at the same point.