How to Calculate Transmissibility Ratio given Natural Circular Frequency and Critical Damping Coefficient?
Transmissibility Ratio given Natural Circular Frequency and Critical Damping Coefficient calculator uses Transmissibility Ratio = (sqrt(1+((2*Damping Coefficient*Angular Velocity)/(Critical Damping Coefficient*Natural Circular Frequency)^2)))/sqrt(((2*Damping Coefficient*Angular Velocity)/(Critical Damping Coefficient*Natural Circular Frequency))^2+(1-(Angular Velocity/Natural Circular Frequency)^2)^2) to calculate the Transmissibility Ratio, The Transmissibility ratio given natural circular frequency and critical damping coefficient formula is defined as the ratio of the force transmitted (FT) to the force applied (F) is known as the isolation factor or transmissibility ratio of the spring support. Transmissibility Ratio is denoted by ε symbol.
How to calculate Transmissibility Ratio given Natural Circular Frequency and Critical Damping Coefficient using this online calculator? To use this online calculator for Transmissibility Ratio given Natural Circular Frequency and Critical Damping Coefficient, enter Damping Coefficient (c), Angular Velocity (ω), Critical Damping Coefficient (cc) & Natural Circular Frequency (ωn) and hit the calculate button. Here is how the Transmissibility Ratio given Natural Circular Frequency and Critical Damping Coefficient calculation can be explained with given input values -> 0.98074 = (sqrt(1+((2*9000*0.2)/(1800*0.194)^2)))/sqrt(((2*9000*0.2)/(1800*0.194))^2+(1-(0.2/0.194)^2)^2).