Anshika Arya
National Institute Of Technology (NIT), Hamirpur
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11 Other formulas that you can solve using the same Inputs

Effort applied to move the body in downward direction on inclined plane considering friction
Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*sin(Angle of inclination of the plane to the horizontal-Limiting angle of friction)/sin(Angle of effort -(Angle of inclination of the plane to the horizontal-Limiting angle of friction)) GO
Effort applied to move the body in upward direction on inclined plane considering friction
Effort required to move a body on inclined surface considering friction=(Weight*sin(Angle of inclination of the plane to the horizontal+Limiting angle of friction))/sin(Angle of effort -(Angle of inclination of the plane to the horizontal+Limiting angle of friction)) GO
Effort applied parallel to inclined plane to move the body in upward direction considering friction
Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*(sin(Angle of inclination of the plane to the horizontal)+(Coefficient of Friction*cos(Angle of inclination of the plane to the horizontal))) GO
Efficiency of inclined plane when effort applied to move the body in upward direction on inclined plane
Efficiency of inclined plane=(cot(Angle of inclination of the plane to the horizontal+Limiting angle of friction)-cot(Angle of effort ))/(cot(Angle of inclination of the plane to the horizontal)-cot(Angle of effort )) GO
Effort required to move the body down the plane neglecting friction
Effort required to move a body on inclined surface neglecting friction=(Weight*sin(Angle of inclination of the plane to the horizontal))/sin(Angle of effort -Angle of inclination of the plane to the horizontal) GO
Effort required to move the body up the plane neglecting friction
Effort required to move a body on inclined surface neglecting friction=(Weight*sin(Angle of inclination of the plane to the horizontal))/sin(Angle of effort -Angle of inclination of the plane to the horizontal) GO
Effort applied perpendicular to inclined plane to move the body in downward direction considering friction
Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*tan(Angle of inclination of the plane to the horizontal-Limiting angle of friction) GO
Effort applied perpendicular to inclined plane to move the body in upward direction considering friction
Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*tan(Angle of inclination of the plane to the horizontal+Limiting angle of friction) GO
Effort applied parallel to inclined plane to move the body in upward/downward direction neglecting friction
Effort required to move a body on inclined surface neglecting friction=Weight of body on which frictional force is applied*sin(Angle of inclination of the plane to the horizontal) GO
Effort applied perpendicular to inclined plane to move the body in upward/downward direction neglecting friction
Effort required to move a body on inclined surface neglecting friction=Weight*tan(Angle of inclination of the plane to the horizontal) GO
Minimum force required to slide a body on rough horizontal plane
Minimum effort=Weight of body on which frictional force is applied*(sin(Angle of effort )) GO

5 Other formulas that calculate the same Output

Effort applied to move the body in downward direction on inclined plane considering friction
Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*sin(Angle of inclination of the plane to the horizontal-Limiting angle of friction)/sin(Angle of effort -(Angle of inclination of the plane to the horizontal-Limiting angle of friction)) GO
Effort applied to move the body in upward direction on inclined plane considering friction
Effort required to move a body on inclined surface considering friction=(Weight*sin(Angle of inclination of the plane to the horizontal+Limiting angle of friction))/sin(Angle of effort -(Angle of inclination of the plane to the horizontal+Limiting angle of friction)) GO
Effort applied parallel to inclined plane to move the body in upward direction considering friction
Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*(sin(Angle of inclination of the plane to the horizontal)+(Coefficient of Friction*cos(Angle of inclination of the plane to the horizontal))) GO
Effort applied perpendicular to inclined plane to move the body in downward direction considering friction
Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*tan(Angle of inclination of the plane to the horizontal-Limiting angle of friction) GO
Effort applied perpendicular to inclined plane to move the body in upward direction considering friction
Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*tan(Angle of inclination of the plane to the horizontal+Limiting angle of friction) GO

Effort applied parallel to inclined plane to move the body in downward direction considering friction Formula

Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*(sin(Angle of inclination of the plane to the horizontal)-(Coefficient of Friction*cos(Angle of inclination of the plane to the horizontal)))
More formulas
Force of Friction between the cylinder and the surface of inclined plane if cylinder is rolling without slipping down a ramp GO
Coefficient of Friction between the cylinder and the surface of inclined plane if cylinder is rolling without slipping down GO
Coefficient of Friction GO
Limiting angle of friction GO
Angle of repose GO
Minimum force required to slide a body on rough horizontal plane GO
Effort required to move the body up the plane neglecting friction GO
Effort required to move the body down the plane neglecting friction GO
Effort applied to move the body in upward direction on inclined plane considering friction GO
Effort applied to move the body in downward direction on inclined plane considering friction GO
Effort applied perpendicular to inclined plane to move the body in upward direction considering friction GO
Effort applied parallel to inclined plane to move the body in upward direction considering friction GO
Effort applied perpendicular to inclined plane to move the body in upward/downward direction neglecting friction GO
Effort applied parallel to inclined plane to move the body in upward/downward direction neglecting friction GO
Effort applied perpendicular to inclined plane to move the body in downward direction considering friction GO
Efficiency of inclined plane when effort applied to move the body in upward direction on inclined plane GO
Efficiency of inclined plane when effort applied horizontally to move the body in upward direction on inclined plane GO
Efficiency of inclined plane when effort applied parallel to move the body in upward direction on inclined plane GO
Efficiency of inclined plane when effort applied to move the body in downward direction on inclined plane GO
Efficiency of inclined plane when effort applied horizontally to move the body in downward direction on inclined plane GO
Efficiency of inclined plane when effort applied parallel to move the body in downward direction on inclined plane GO
Total torque required to overcome friction in rotating a screw GO

What will happen if the slope of inclined plane is too steep?

Inclined plane, simple machine consisting of a sloping surface, used for raising heavy bodies. The force required to move an object up the incline is less than the weight being raised, discounting friction. The steeper the slope, or incline, the more nearly the required force approaches the actual weight.

How to Calculate Effort applied parallel to inclined plane to move the body in downward direction considering friction?

Effort applied parallel to inclined plane to move the body in downward direction considering friction calculator uses Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*(sin(Angle of inclination of the plane to the horizontal)-(Coefficient of Friction*cos(Angle of inclination of the plane to the horizontal))) to calculate the Effort required to move a body on inclined surface considering friction, Effort applied parallel to inclined plane to move the body in downward direction considering friction is the force required for downward motion of body on inclined plane. Effort required to move a body on inclined surface considering friction and is denoted by P symbol.

How to calculate Effort applied parallel to inclined plane to move the body in downward direction considering friction using this online calculator? To use this online calculator for Effort applied parallel to inclined plane to move the body in downward direction considering friction, enter Coefficient of Friction (μ), Weight of body on which frictional force is applied (W) and Angle of inclination of the plane to the horizontal (α) and hit the calculate button. Here is how the Effort applied parallel to inclined plane to move the body in downward direction considering friction calculation can be explained with given input values -> 15.32051 = 20*(sin(60)-(0.2*cos(60))).

FAQ

What is Effort applied parallel to inclined plane to move the body in downward direction considering friction?
Effort applied parallel to inclined plane to move the body in downward direction considering friction is the force required for downward motion of body on inclined plane and is represented as P=W*(sin(α)-(μ*cos(α))) or Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*(sin(Angle of inclination of the plane to the horizontal)-(Coefficient of Friction*cos(Angle of inclination of the plane to the horizontal))). The Coefficient of Friction (μ) is the ratio defining the force that resists the motion of one body in relation to another body in contact with it. This ratio is dependent on material properties and most materials have a value between 0 and 1. , Weight of body on which frictional force is applied is the force acting on the object due to gravity. and Angle of inclination of the plane to the horizontal is formed by the inclination of one plane to another; measured in degrees or radians.
How to calculate Effort applied parallel to inclined plane to move the body in downward direction considering friction?
Effort applied parallel to inclined plane to move the body in downward direction considering friction is the force required for downward motion of body on inclined plane is calculated using Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*(sin(Angle of inclination of the plane to the horizontal)-(Coefficient of Friction*cos(Angle of inclination of the plane to the horizontal))). To calculate Effort applied parallel to inclined plane to move the body in downward direction considering friction, you need Coefficient of Friction (μ), Weight of body on which frictional force is applied (W) and Angle of inclination of the plane to the horizontal (α). With our tool, you need to enter the respective value for Coefficient of Friction, Weight of body on which frictional force is applied and Angle of inclination of the plane to the horizontal and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Effort required to move a body on inclined surface considering friction?
In this formula, Effort required to move a body on inclined surface considering friction uses Coefficient of Friction, Weight of body on which frictional force is applied and Angle of inclination of the plane to the horizontal. We can use 5 other way(s) to calculate the same, which is/are as follows -
  • Effort required to move a body on inclined surface considering friction=(Weight*sin(Angle of inclination of the plane to the horizontal+Limiting angle of friction))/sin(Angle of effort -(Angle of inclination of the plane to the horizontal+Limiting angle of friction))
  • Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*sin(Angle of inclination of the plane to the horizontal-Limiting angle of friction)/sin(Angle of effort -(Angle of inclination of the plane to the horizontal-Limiting angle of friction))
  • Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*tan(Angle of inclination of the plane to the horizontal+Limiting angle of friction)
  • Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*(sin(Angle of inclination of the plane to the horizontal)+(Coefficient of Friction*cos(Angle of inclination of the plane to the horizontal)))
  • Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*tan(Angle of inclination of the plane to the horizontal-Limiting angle of friction)
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