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velagapudi ramakrishna siddhartha engineering college (vr siddhartha engineering college), vijayawada
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## Length of stroke in terms of diameter of plunger Solution

STEP 0: Pre-Calculation Summary
Formula Used
Length_of_stroke = (Volume of accumulator*4)/(pi*Plunger diameter)
L = (V*4)/(pi*D)
This formula uses 1 Constants, 2 Variables
Constants Used
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288
Variables Used
Volume of accumulator - Volume of accumulator is defined as the product of area of sliding ram and lift of the ram. (Measured in Cubic Meter)
Plunger diameter - Plunger diameter is defined as the straight line segment that passes through the center of the plunger and whose endpoints lie on the plunger. (Measured in Meter)
STEP 1: Convert Input(s) to Base Unit
Volume of accumulator: 50 Cubic Meter --> 50 Cubic Meter No Conversion Required
Plunger diameter: 50 Meter --> 50 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
L = (V*4)/(pi*D) --> (50*4)/(pi*50)
Evaluating ... ...
L = 1.27323954473516
STEP 3: Convert Result to Output's Unit
1.27323954473516 Meter --> No Conversion Required
1.27323954473516 Meter <-- Length of stroke
(Calculation completed in 00.016 seconds)

## < 9 Hydraulic accumulator Calculators

Pressure head of water supplied in hydraulic accumulator
pressure_head = Pressure intensity/(Water Density*Acceleration Due To Gravity) Go
Length of stroke in terms of diameter of plunger
Length_of_stroke = (Volume of accumulator*4)/(pi*Plunger diameter) Go
Capacity of hydraulic accumulator in terms of volume
capacity_accumulator = Pressure intensity*Volume of accumulator Go
Total energy stored in differential hydraulic accumulator
total_energy = Total weight of the particle*Vertical line Go
Volume of hydraulic accumulator
Volume_of_hydraulic_accumulator = Area of ram*Lift of ram Go
Length of stroke in hydraulic accumulator
Length_of_stroke = Volume of accumulator/Area of ram Go
Total weight placed on hydraulic ram including weight of hydraulic ram
total_weight = Pressure intensity*Area of ram Go
Distance moved by Hydraulic ram per second
distance_moved = Length of stroke/Time Go
Work supplied by hydraulic accumulator
work = Load*Distance moved by weight Go

### Length of stroke in terms of diameter of plunger Formula

Length_of_stroke = (Volume of accumulator*4)/(pi*Plunger diameter)
L = (V*4)/(pi*D)

## What is stroke length and its unit?

Stroke is nothing but distance moved by the piston from BDC to TDC in engine cylinder for ex. two stroke engine means, the piston of two stroke engine travels two times (1 up & 1 down) to complete one cycle. The unit of stroke is meter or mm.

## What is stroke length of a hydraulic cylinder?

The stroke is the amount of travel the piston rod can move in and out. It can be found by subtracting the maximum extended length of the hydraulic cylinder from it's minimum compressed length. Generally the compressed length is given along with the stroke.

## How to Calculate Length of stroke in terms of diameter of plunger?

Length of stroke in terms of diameter of plunger calculator uses Length_of_stroke = (Volume of accumulator*4)/(pi*Plunger diameter) to calculate the Length of stroke, The Length of stroke in terms of diameter of plunger formula is defined as how far the piston travels in the cylinder, which is determined by the cranks on the crankshaft. This number is multiplied by the number of cylinders in the engine, to determine the total displacement. Length of stroke is denoted by L symbol.

How to calculate Length of stroke in terms of diameter of plunger using this online calculator? To use this online calculator for Length of stroke in terms of diameter of plunger, enter Volume of accumulator (V) & Plunger diameter (D) and hit the calculate button. Here is how the Length of stroke in terms of diameter of plunger calculation can be explained with given input values -> 1.27324 = (50*4)/(pi*50).

### FAQ

What is Length of stroke in terms of diameter of plunger?
The Length of stroke in terms of diameter of plunger formula is defined as how far the piston travels in the cylinder, which is determined by the cranks on the crankshaft. This number is multiplied by the number of cylinders in the engine, to determine the total displacement and is represented as L = (V*4)/(pi*D) or Length_of_stroke = (Volume of accumulator*4)/(pi*Plunger diameter). Volume of accumulator is defined as the product of area of sliding ram and lift of the ram & Plunger diameter is defined as the straight line segment that passes through the center of the plunger and whose endpoints lie on the plunger.
How to calculate Length of stroke in terms of diameter of plunger?
The Length of stroke in terms of diameter of plunger formula is defined as how far the piston travels in the cylinder, which is determined by the cranks on the crankshaft. This number is multiplied by the number of cylinders in the engine, to determine the total displacement is calculated using Length_of_stroke = (Volume of accumulator*4)/(pi*Plunger diameter). To calculate Length of stroke in terms of diameter of plunger, you need Volume of accumulator (V) & Plunger diameter (D). With our tool, you need to enter the respective value for Volume of accumulator & Plunger diameter 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 Length of stroke?
In this formula, Length of stroke uses Volume of accumulator & Plunger diameter. We can use 9 other way(s) to calculate the same, which is/are as follows -
• Volume_of_hydraulic_accumulator = Area of ram*Lift of ram
• capacity_accumulator = Pressure intensity*Volume of accumulator
• Length_of_stroke = Volume of accumulator/Area of ram
• total_weight = Pressure intensity*Area of ram
• Length_of_stroke = (Volume of accumulator*4)/(pi*Plunger diameter)
• distance_moved = Length of stroke/Time
• pressure_head = Pressure intensity/(Water Density*Acceleration Due To Gravity)
• total_energy = Total weight of the particle*Vertical line
• work = Load*Distance moved by weight
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