# Questions & Answers of Free and Forced Vibration of Single Degree of Freedom Systems, Effect of Damping

Question No. 22

The spring constant of a helical compression spring DOES NOT depend on

Question No. 47

A solid disc with radius a is connected to a spring at a point d above the center of the disc. The other end of the spring is fixed to the vertical wall. The disc is free to roll without slipping on the ground. The mass of the disc is M and the spring constant is K. The polar moment of inertia for the disc about its centre is $J =Ma^2/2$ .

The natural frequency of this system in rad/s is given by

Question No. 120

A single degree of freedom mass-spring-viscous damper system with mass m, spring constant k and viscous damping coefficient q is critically damped. The correct relation among m, k, and q is

Question No. 147

The system shown in the figure consists of block A of mass 5 kg connected to a spring through a massless rope passing over pulley B of radius r and mass 20 kg. The spring constant k is 1500 N/m. If there is no slipping of the rope over the pulley, the natural frequency of the system is_____________ rad/s.

Question No. 221

The static deflection of a spring under gravity, when a mass of 1 kg is suspended from it, is 1 mm. Assume the acceleration due to gravity $g=10\mathrm m/\mathrm s^2$. The natural frequency of this spring-mass system (in rad/s) is_____________

Question No. 247

A single degree of freedom spring-mass system is subjected to a harmonic force of constant amplitude. For an excitation frequency of $\sqrt{\frac{3k}{m}}$ , the ratio of the amplitude of steady state response to the static deflection of the spring is __________

Question No. 48

Considering massless rigid rod and small oscillations, the natural frequency (in rad/s) of vibration of the system shown in the figure is

Question No. 52

A mobile phone has a small motor with an eccentric mass used for vibrator mode. The location of the eccentric mass on motor with respect to center of gravity (CG) of the mobile and the rest of the dimensions of the mobile phone are shown. The mobile is kept on a flat horizontal surface.

Given in addition that the eccentric mass = 2 grams , eccentricity = 2.19 mm, mass of the mobile = 90 grams , g = 9.81 m/s2 .Uniform speed of the motor in RPM for which the mobile will get just lifted off the ground at the end Q is approximately.

Question No. 120

In a spring-mass system the mass is m and the spring constant is k. The critical damping coefficient of the system is 0.1 kg/s. In another spring mass system, the mass is 2m and the spring constant is 8k. The critical damping coefficient (in kg/s) of this system is _______.

Question No. 146

A single-degree-freedom spring-mass is subjected to a sinusoidal force of 10 N amplitude and frequency $\omega$ along the axis of the spring. The stiffness of the spring is 150 N/m, damping factor is 0.2 and undamped natural frequency is 10 $\omega$. At steady state, the amplitude of vibration (in m) is approximately

Question No. 229

Which of the following statements are TRUE for damped vibrations?

 P. For a system having critical damping, the value if the damping ratio is unity and system does not undergo a vibratory motion. Q. Logarithmic decrement method is used to determine the amount of damping in a physical system. R. In case of damping due to dry friction between moving surfaces resisting force of constant magnitude acts opposite to the relative motion. S. For the case of viscous damping, drag force is directly proportional to the square of relative velocity.

Question No. 238

Figure shows a single degree of freedom system. The system consists of a massless rigid bar OP hinged O and a mass m at end P. The natural frequency of vibration of the system is

Question No. 18

Critical damping is the

Question No. 43

Consider a cantilever beam, having negligible mass and uniform flexural rigidity, with length 0.01 m. The frequency of vibration of the beam, with a 0.5 kg mass attached at the free tip, is 100 Hz. The flexural rigidity (in N.m2) of the beam is _______

Question No. 48

A rigid uniform rod AB of length L and mass m is hinged at C such that AC = L/3, CB = 2L/3. Ends A and B are supported by springs of spring constant k. The natural frequency of the system is given by

Question No. 144

What is the natural frequency of the spring mass system shown below? The contact between the block and the inclined plane is frictionless. The mass of the block is denoted by m and the spring constants are denoted by k1 and k2 as shown below.

Question No. 243

The damping ratio of a single degree of freedom spring-mass-damper system with mass of 1 kg, stiffness 100 N/m and viscous damping coefficient of 25 N.s/m is _______

Question No. 250

A mass-spring-dashpot system with mass m = 10 kg, spring constant k = 6250 N/m is excited by a harmonic excitation of 10 cos(25t) N. At the steady state, the vibration amplitude of the mass is 40 mm. The damping coefficient (c, in N.s/m) of the dashpot is _______

Question No. 349

A single degree of freedom system has a mass of 2 kg, stiffness 8 N/m and viscous damping ratio 0.02. The dynamic magnification factor at an excitation frequency of 1.5 rad/s is _______

Question No. 39

A single degree of freedom system having mass 1 kg and stiffness 10 kN/m initially at rest is subjected to an impulse force of magnitude 5 kN for 10-4 seconds. The amplitude in mm of the resulting free vibration is

Question No. 33

A concentrated mass m is attached at the centre of a rod of length 2L as shown in the figure. The rod is kept in a horizontal equilibrium position by a spring of stiffness k. For very small amplitude of vibration, neglecting the weights of the rod and spring, the undamped natural frequency of the system is

Question No. 35

A mass of 1 kg is attached to two identical springs each with stiffness k = 20 kN/m as shown in the figure. Under frictionless condition, the natural frequency of the system in Hz is close to

Question No. 42

A disc of mass m is attached to a spring of stiffness k as shown in the figure. The disc rolls without slipping on a horizontal surface. The natural frequency of vibration of the system is

Question No. 10

The natural frequency of a spring-mass system on earth is ωn. The natural frequency of this system on the moon (gmoon = gearth /6) is

Question No. 33

A mass m attached to a spring is subjected to a harmonic force as shown in figure. The amplitude of the forced motion is observed to be 50mm. the value of m (in Kg) is

Question No. 39

A vehicle suspension system consists of a spring and a damper. The stiffness of the spring is 3.6 kN/m and the damping constant of the damper is 400 Ns/m. If the mass is 50 kg, then the damping factor (d) and damped natural frequency (fn), respectively, are

Question No. 35

The natural frequency of the spring mass system shown in the figure is closest to

Question No. 38

A uniform rigid rod of mass m = 1kg and length L = 1m is hinged at its centre and laterally supported at one end by a spring of spring constant k = 300 N/m. The natural frequency ωn in rad/s is

The equation of motion of a harmonic oscillator is given by $\frac{{d}^{2}x}{d{t}^{2}}+2\zeta {\omega }_{n}\frac{dx}{dt}+{\omega }_{n}^{2}x=0$, and the initial conditions at t = 0 are $x\left(0\right)=X,\frac{dx}{dt}\left(0\right)=0$. The amplitude of x(t) after n complete cycle is