Rithik Agrawal
National Institute of Technology Karnataka (NITK), Surathkal
Rithik Agrawal has created this Calculator and 300+ more calculators!
M Naveen
National Institute of Technology (NIT), Warangal
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11 Other formulas that you can solve using the same Inputs

Variation of acceleration due to gravity effect on the surface of earth
Variation of acceleration due to gravity=Acceleration Due To Gravity*(1-[Earth-R]*Angular Velocity/Acceleration Due To Gravity) GO
Angular Displacement if initial angular velocity, angular acceleration and time are given
Angular Displacement=(Angular Velocity*Time Taken to Travel)+((Angular Acceleration*(Time Taken to Travel)^2)/2) GO
Angular Displacement of body when initial and final angular velocity and angular acceleration are given
Angular Displacement=((Final Angular Velocity)^2-(Angular Velocity)^2)/(2*Angular Acceleration) GO
Angular Displacement if initial angular velocity, final angular velocity and time are given
Angular Displacement=((Angular Velocity+Final Angular Velocity)*Time Taken to Travel)/2 GO
Final Angular Velocity if initial angular velocity, angular acceleration and time is given
Final Angular Velocity=Angular Velocity+(Angular Acceleration*Time Taken to Travel) GO
angle traced in nth second( accelerated rotatory motion)
Angular Displacement=Angular Velocity+((Angular Acceleration*(2*Nth Second -1))/2) GO
Time Period for Alternating Current
Time Period Of Progressive Wave=(2*pi)/Angular Velocity GO
Capacitive Reactance
capacitive reactance=1/(Angular Velocity*Capacitance) GO
Angular Momentum
Angular Momentum=Moment of Inertia*Angular Velocity GO
Inductive Reactance
Inductive reactance=Angular Velocity*Inductance GO
Torque Of Series DC Generator Using Input Power
Torque=Input Power/Angular Velocity GO

2 Other formulas that calculate the same Output

Centripetal acceleration of the point P on circumference
Centripetal acceleration=((pi^2)*(Angular velocity of the cam^2)*Stroke of the follower)/(2*(Angular displacement of the cam during out stroke^2)) GO
Centripetal acceleration of the point P on circumference when the follower moves with SHM
Centripetal acceleration=(2*Peripheral speed^2)/(Stroke of the follower) GO

Centripetal acceleration exerted on the liquid mass at a radial distance r from axis. Formula

Centripetal acceleration=(Angular Velocity^2)*radial distance
a=(ω^2)*r s
More formulas
Constant Angular Velocity when Centripetal acceleration at a radial distance r from axis is Given GO
Radial Distance when Centripetal acceleration from axis is Given GO
Pressure at any point with origin at free surface GO
Atmospheric Pressure when Pressure at any point with origin at free surface is Given GO
Radial Distance when Pressure at any point with origin at free surface is Given GO
Vertical Depth (z) when Pressure at any point with origin at free surface is Given GO
Equation of Free Surface of liquid GO
Constant Angular Velocity when Equation of Free Surface of liquid is Given GO

What is Centripetal Acceleration ?

Centripetal acceleration, property of the motion of a body traversing a circular path. The acceleration is directed radially toward the centre of the circle and has a magnitude equal to the square of the body's speed along the curve divided by the distance from the centre of the circle to the moving body.

How to Calculate Centripetal acceleration exerted on the liquid mass at a radial distance r from axis.?

Centripetal acceleration exerted on the liquid mass at a radial distance r from axis. calculator uses Centripetal acceleration=(Angular Velocity^2)*radial distance to calculate the Centripetal acceleration, The Centripetal acceleration exerted on the liquid mass at a radial distance r from axis. is defined as acceleration of rotating container. . Centripetal acceleration and is denoted by a symbol.

How to calculate Centripetal acceleration exerted on the liquid mass at a radial distance r from axis. using this online calculator? To use this online calculator for Centripetal acceleration exerted on the liquid mass at a radial distance r from axis., enter Angular Velocity (ω) and radial distance (r s) and hit the calculate button. Here is how the Centripetal acceleration exerted on the liquid mass at a radial distance r from axis. calculation can be explained with given input values -> 4000 = (20^2)*10.

FAQ

What is Centripetal acceleration exerted on the liquid mass at a radial distance r from axis.?
The Centripetal acceleration exerted on the liquid mass at a radial distance r from axis. is defined as acceleration of rotating container. and is represented as a=(ω^2)*r s or Centripetal acceleration=(Angular Velocity^2)*radial distance. The angular velocity refers to how fast an object rotates or revolves relative to another point, i.e. how fast the angular position or orientation of an object changes with time and The radial distance is considered in the stagnation point.
How to calculate Centripetal acceleration exerted on the liquid mass at a radial distance r from axis.?
The Centripetal acceleration exerted on the liquid mass at a radial distance r from axis. is defined as acceleration of rotating container. is calculated using Centripetal acceleration=(Angular Velocity^2)*radial distance. To calculate Centripetal acceleration exerted on the liquid mass at a radial distance r from axis., you need Angular Velocity (ω) and radial distance (r s). With our tool, you need to enter the respective value for Angular Velocity and radial distance 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 Centripetal acceleration?
In this formula, Centripetal acceleration uses Angular Velocity and radial distance. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • Centripetal acceleration=(2*Peripheral speed^2)/(Stroke of the follower)
  • Centripetal acceleration=((pi^2)*(Angular velocity of the cam^2)*Stroke of the follower)/(2*(Angular displacement of the cam during out stroke^2))
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