A particle of mass m is attached to a spring (of spring constant k) and has a natural angular frequency ω0. An external force F (t) proportional to cos ωtωω0 is applied to the oscillator. The time displacement of the oscillator will be proportional to -

1. mω20-ω2                 
2. 1mω20-ω2

3. 1mω21+ω2           
4. mω21+ω2

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An ideal spring with spring-constant K is hung from the ceiling and a block of mass M is attached to its lower end. The mass is released with the spring initially unstretched. Then the maximum extension in the spring is -

1. 4 Mg/K         

2. 2 Mg/K

3. Mg/K             

4. Mg/2K

Subtopic:  Combination of Springs |
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The displacement y of a particle executing periodic motion is given by y=4cos2t/2sin1000t. This expression may be considered to be a result of the superposition of  ........... independent harmonic motions

1. Two         

2. Three

3. Four         

4. Five

Subtopic:  Simple Harmonic Motion |
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Three masses 700g, 500g, and 400g are suspended at the end of a spring as shown and are in equilibrium. When the 700g mass is removed, the system oscillates with a period of 3 seconds. When the 500 gm mass is also removed, it will oscillate with a period of

1. 1 s

2. 2 s

3. 3 s

4. 125s

         

Subtopic:  Combination of Springs |
 80%
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A particle of mass m is attached to three identical springs A, B and C each of force constant k a shown in figure. If the particle of mass m is pushed slightly against the spring A and released then the time period of oscillations is -

(a) 2π2mk          (b) 2πm2k

(c) 2πmk            (d) 2πm3k

              

                 

Subtopic:  Combination of Springs |
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The graph shows the variation of displacement of a particle executing SHM with time. We infer from this graph that:

   
 

1. the force is zero at the time \(T/8\).
2. the velocity is maximum at the time \(T/4\).
3. the acceleration is maximum at the time \(T\).
4. the P.E. is equal to the total energy at the time \(T/4\).

Subtopic:  Energy of SHM |
 65%
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A particle of mass m oscillates with simple harmonic motion between points x1 and x2 , the equilibrium position being O. Its potential energy is plotted. It will be as given below in the graph 

1.              

2. 

3.              

4.  

Subtopic:  Energy of SHM |
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For a particle executing SHM the displacement \(x \) is given by, \(A\cos \omega t.\)  Identify the graph which represents the variation of potential energy (P.E.) as a function of time \(t\) and displacement \(x.\)

   
1. I, III
2. II, IV
3. II, III
4. I, IV

Subtopic:  Energy of SHM |
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The velocity-time diagram of a harmonic oscillator is shown in the adjoining figure. The frequency of oscillation is

                                     

1. 25 Hz           

2. 50 Hz

3. 12.25 Hz       

4. 33.3 Hz

Subtopic:  Simple Harmonic Motion |
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The variation of potential energy of harmonic oscillator is as shown in figure. The spring constant is

                                                      

1. 1 ×102 N/m               

2. 150 N/m

3. 0.667 × 102 N/m       

4. 3 × 102 N/m

Subtopic:  Energy of SHM |
 63%
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