Circular Damped Frequency Solution

STEP 0: Pre-Calculation Summary
Formula Used
Circular Damped Frequency = sqrt(Stiffness of Spring/Mass Suspended from Spring-(Damping Coefficient/(2*Mass Suspended from Spring))^2)
ωd = sqrt(k/m-(c/(2*m))^2)
This formula uses 1 Functions, 4 Variables
Functions Used
sqrt - A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number., sqrt(Number)
Variables Used
Circular Damped Frequency - Circular Damped Frequency refers to the angular displacement per unit time.
Stiffness of Spring - (Measured in Newton per Meter) - Stiffness of Spring is a measure of the resistance offered by an elastic body to deformation. every object in this universe has some stiffness.
Mass Suspended from Spring - (Measured in Kilogram) - A Mass Suspended from Spring is defined as the quantitative measure of inertia, a fundamental property of all matter.
Damping Coefficient - (Measured in Newton Second per Meter) - Damping Coefficient is a material property that indicates whether a material will bounce back or return energy to a system.
STEP 1: Convert Input(s) to Base Unit
Stiffness of Spring: 60 Newton per Meter --> 60 Newton per Meter No Conversion Required
Mass Suspended from Spring: 1.25 Kilogram --> 1.25 Kilogram No Conversion Required
Damping Coefficient: 0.8 Newton Second per Meter --> 0.8 Newton Second per Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
ωd = sqrt(k/m-(c/(2*m))^2) --> sqrt(60/1.25-(0.8/(2*1.25))^2)
Evaluating ... ...
ωd = 6.92080920124229
STEP 3: Convert Result to Output's Unit
6.92080920124229 --> No Conversion Required
FINAL ANSWER
6.92080920124229 6.920809 <-- Circular Damped Frequency
(Calculation completed in 00.004 seconds)

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National Institute Of Technology (NIT), Hamirpur
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Indian Institute of Information Technology (IIIT), Guwahati
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Frequency of Free Damped Vibrations Calculators

Condition for Critical Damping
​ LaTeX ​ Go Critical Damping Coefficient = 2*Mass Suspended from Spring*sqrt(Stiffness of Spring/Mass Suspended from Spring)
Damping Factor given Natural Frequency
​ LaTeX ​ Go Damping Ratio = Damping Coefficient/(2*Mass Suspended from Spring*Natural Circular Frequency)
Critical Damping Coefficient
​ LaTeX ​ Go Critical Damping Coefficient = 2*Mass Suspended from Spring*Natural Circular Frequency
Damping Factor
​ LaTeX ​ Go Damping Ratio = Damping Coefficient/Critical Damping Coefficient

Circular Damped Frequency Formula

​LaTeX ​Go
Circular Damped Frequency = sqrt(Stiffness of Spring/Mass Suspended from Spring-(Damping Coefficient/(2*Mass Suspended from Spring))^2)
ωd = sqrt(k/m-(c/(2*m))^2)

Why damping happens during vibration?

The mechanical system vibrates at one or more of its natural frequencies and damps down to motionlessness. Damped vibration happens when the energy of a vibrating system is gradually dissipated by friction and other resistances, the vibrations are said to be damped.

How to Calculate Circular Damped Frequency?

Circular Damped Frequency calculator uses Circular Damped Frequency = sqrt(Stiffness of Spring/Mass Suspended from Spring-(Damping Coefficient/(2*Mass Suspended from Spring))^2) to calculate the Circular Damped Frequency, Circular Damped Frequency formula is defined as a measure of the frequency at which an object vibrates when it is subjected to an external damping force, such as friction or air resistance, and is a critical concept in understanding the behavior of oscillating systems in physics and engineering. Circular Damped Frequency is denoted by ωd symbol.

How to calculate Circular Damped Frequency using this online calculator? To use this online calculator for Circular Damped Frequency, enter Stiffness of Spring (k), Mass Suspended from Spring (m) & Damping Coefficient (c) and hit the calculate button. Here is how the Circular Damped Frequency calculation can be explained with given input values -> 15.40909 = sqrt(60/1.25-(0.8/(2*1.25))^2).

FAQ

What is Circular Damped Frequency?
Circular Damped Frequency formula is defined as a measure of the frequency at which an object vibrates when it is subjected to an external damping force, such as friction or air resistance, and is a critical concept in understanding the behavior of oscillating systems in physics and engineering and is represented as ωd = sqrt(k/m-(c/(2*m))^2) or Circular Damped Frequency = sqrt(Stiffness of Spring/Mass Suspended from Spring-(Damping Coefficient/(2*Mass Suspended from Spring))^2). Stiffness of Spring is a measure of the resistance offered by an elastic body to deformation. every object in this universe has some stiffness, A Mass Suspended from Spring is defined as the quantitative measure of inertia, a fundamental property of all matter & Damping Coefficient is a material property that indicates whether a material will bounce back or return energy to a system.
How to calculate Circular Damped Frequency?
Circular Damped Frequency formula is defined as a measure of the frequency at which an object vibrates when it is subjected to an external damping force, such as friction or air resistance, and is a critical concept in understanding the behavior of oscillating systems in physics and engineering is calculated using Circular Damped Frequency = sqrt(Stiffness of Spring/Mass Suspended from Spring-(Damping Coefficient/(2*Mass Suspended from Spring))^2). To calculate Circular Damped Frequency, you need Stiffness of Spring (k), Mass Suspended from Spring (m) & Damping Coefficient (c). With our tool, you need to enter the respective value for Stiffness of Spring, Mass Suspended from Spring & Damping Coefficient 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 Circular Damped Frequency?
In this formula, Circular Damped Frequency uses Stiffness of Spring, Mass Suspended from Spring & Damping Coefficient. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Circular Damped Frequency = sqrt(Natural Circular Frequency^2-Frequency Constant for Calculation^2)
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