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velagapudi ramakrishna siddhartha engineering college (vr siddhartha engineering college), vijayawada
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Force required at the end of the Hydraulic lever Solution

STEP 0: Pre-Calculation Summary
Formula Used
Force_required_at_the_end_of_hydraulic_lever = Weight lifted by plunger*(Length of lever/Lift of ram)*(Area of plunger/Area of ram)
F' = W*(l/L)*(a/A)
This formula uses 5 Variables
Variables Used
Weight lifted by plunger - Weight lifted by plunger is defined as the amount of force that is lifted by the plunger when a certain amount of force is acting on it. (Measured in Newton)
Length of lever - Length of lever is defined as the perpendicular distance from a line of force to an axis through the fulcrum of hydraulic lever. These force is responsible for lifting the weights. (Measured in Meter)
Lift of ram - Lift of ram is defined as the measurement of weight when a force is applied on the ram . The small force applied on ram can measure the large number of weight. (Measured in Meter)
Area of plunger - Area of plunger is defined as the area where the force acts equally in all sides so that the weight is lifted by the plunger. (Measured in Square Meter)
Area of ram - Area of ram is defined as the area covered by the large ram in which a piston or plunger is displaced by the pressure of a fluid. (Measured in Square Meter)
STEP 1: Convert Input(s) to Base Unit
Weight lifted by plunger: 50 Newton --> 50 Newton No Conversion Required
Length of lever: 50 Meter --> 50 Meter No Conversion Required
Lift of ram: 50 Meter --> 50 Meter No Conversion Required
Area of plunger: 50 Square Meter --> 50 Square Meter No Conversion Required
Area of ram: 50 Square Meter --> 50 Square Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
F' = W*(l/L)*(a/A) --> 50*(50/50)*(50/50)
Evaluating ... ...
F' = 50
STEP 3: Convert Result to Output's Unit
50 Newton --> No Conversion Required
FINAL ANSWER
50 Newton <-- Force at end of lever
(Calculation completed in 00.016 seconds)

9 Hydraulic press Calculators

Force required at the end of the Hydraulic lever
Force_required_at_the_end_of_hydraulic_lever = Weight lifted by plunger*(Length of lever/Lift of ram)*(Area of plunger/Area of ram) Go
Weight lifted by Hydraulic press given length of lever
Weight_lifted_by_hydraulic_plunger = Force at end of lever*(Lift of ram/Length of lever)*(Area of ram/Area of plunger) Go
Work done by the hydraulic press
Work_done_by_the_hydraulic_press_per_second = (Weight lifted by plunger*Distance Traveled)/Time Go
Force acting on hydraulic plunger
Force_acting_on_hydraulic_plunger = (Weight lifted by plunger*Area of plunger)/Area of ram Go
Weight lifted by hydraulic press
Weight_lifted_by_hydraulic_plunger = (Force acting on plunger*Area of ram)/Area of plunger Go
Number of strokes performed by hydraulic plunger or pump
Number_of_strokes_performed_by_hydraulic_plunger_or_pump = Total volume of liquid displaced/Volume displaced per stroke Go
Mechanical advantage of hydraulic press in terms of weight and force
mechanical_advantage = Weight lifted by plunger/Force acting on plunger Go
Total volume of liquid displaced in hydraulic cylinder
total_volume = Area of ram*Distance moved by weight Go
Leverage of the Hydraulic press
leverage = Lift of ram/Length of lever Go

Force required at the end of the Hydraulic lever Formula

Force_required_at_the_end_of_hydraulic_lever = Weight lifted by plunger*(Length of lever/Lift of ram)*(Area of plunger/Area of ram)
F' = W*(l/L)*(a/A)

What is the force of a lever?

A lever is a simple machine that consists of a rigid bar supported at one point, known as the fulcrum. A force called the effort force is applied at one point on the lever in order to move an object, known as the resistance force, located at some other point on the lever.

What is called lever?

Simply put, levers are machines used to increase force. We call them "simple machines" because they have only two parts — the handle and the fulcrum. The handle or bar of the lever is called the "arm" — it's the part that you push or pull on. The "fulcrum" is the point on which the lever turns or balances.

How to Calculate Force required at the end of the Hydraulic lever?

Force required at the end of the Hydraulic lever calculator uses Force_required_at_the_end_of_hydraulic_lever = Weight lifted by plunger*(Length of lever/Lift of ram)*(Area of plunger/Area of ram) to calculate the Force at end of lever, The Force required at the end of the Hydraulic lever formula is defined as the force acting at the end portion of lever so that When an effort is applied to one end of the lever, a load is applied at the other end of the lever. This will move a mass upward. Levers rely on torque for their operation. Force at end of lever is denoted by F' symbol.

How to calculate Force required at the end of the Hydraulic lever using this online calculator? To use this online calculator for Force required at the end of the Hydraulic lever, enter Weight lifted by plunger (W), Length of lever (l), Lift of ram (L), Area of plunger (a) & Area of ram (A) and hit the calculate button. Here is how the Force required at the end of the Hydraulic lever calculation can be explained with given input values -> 50 = 50*(50/50)*(50/50).

FAQ

What is Force required at the end of the Hydraulic lever?
The Force required at the end of the Hydraulic lever formula is defined as the force acting at the end portion of lever so that When an effort is applied to one end of the lever, a load is applied at the other end of the lever. This will move a mass upward. Levers rely on torque for their operation and is represented as F' = W*(l/L)*(a/A) or Force_required_at_the_end_of_hydraulic_lever = Weight lifted by plunger*(Length of lever/Lift of ram)*(Area of plunger/Area of ram). Weight lifted by plunger is defined as the amount of force that is lifted by the plunger when a certain amount of force is acting on it, Length of lever is defined as the perpendicular distance from a line of force to an axis through the fulcrum of hydraulic lever. These force is responsible for lifting the weights, Lift of ram is defined as the measurement of weight when a force is applied on the ram . The small force applied on ram can measure the large number of weight, Area of plunger is defined as the area where the force acts equally in all sides so that the weight is lifted by the plunger & Area of ram is defined as the area covered by the large ram in which a piston or plunger is displaced by the pressure of a fluid.
How to calculate Force required at the end of the Hydraulic lever?
The Force required at the end of the Hydraulic lever formula is defined as the force acting at the end portion of lever so that When an effort is applied to one end of the lever, a load is applied at the other end of the lever. This will move a mass upward. Levers rely on torque for their operation is calculated using Force_required_at_the_end_of_hydraulic_lever = Weight lifted by plunger*(Length of lever/Lift of ram)*(Area of plunger/Area of ram). To calculate Force required at the end of the Hydraulic lever, you need Weight lifted by plunger (W), Length of lever (l), Lift of ram (L), Area of plunger (a) & Area of ram (A). With our tool, you need to enter the respective value for Weight lifted by plunger, Length of lever, Lift of ram, Area of plunger & Area of ram 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 Force at end of lever?
In this formula, Force at end of lever uses Weight lifted by plunger, Length of lever, Lift of ram, Area of plunger & Area of ram. We can use 9 other way(s) to calculate the same, which is/are as follows -
  • mechanical_advantage = Weight lifted by plunger/Force acting on plunger
  • Weight_lifted_by_hydraulic_plunger = (Force acting on plunger*Area of ram)/Area of plunger
  • Force_acting_on_hydraulic_plunger = (Weight lifted by plunger*Area of plunger)/Area of ram
  • leverage = Lift of ram/Length of lever
  • Force_required_at_the_end_of_hydraulic_lever = Weight lifted by plunger*(Length of lever/Lift of ram)*(Area of plunger/Area of ram)
  • Weight_lifted_by_hydraulic_plunger = Force at end of lever*(Lift of ram/Length of lever)*(Area of ram/Area of plunger)
  • Work_done_by_the_hydraulic_press_per_second = (Weight lifted by plunger*Distance Traveled)/Time
  • total_volume = Area of ram*Distance moved by weight
  • Number_of_strokes_performed_by_hydraulic_plunger_or_pump = Total volume of liquid displaced/Volume displaced per stroke
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