Categorized as: Class-11-Physics

Show that for a particle in linear SHM the average kinetic energy over a period of oscillation equals the average potential energy over the same period. | Learn NCERT solution | Education portal Class 11 Physics | Study online Unit-14 Oscillations

Q.22:- Show that for a particle in linear SHM the average kinetic energy over a period of oscillation equals the average potential energy over the same period. Answer:- The equation of…

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You are riding in an automobile of mass 3000 kg. Assuming that you are examining the oscillation characteristics of its suspension system. The suspension sags 15 cm when the entire automobile is placed on it. Also, the amplitude of oscillation decreases by 50% during one complete oscillation. Estimate the values of (a) the spring constant k and (b) the damping constant b for the spring and shock absorber system of one wheel, assuming that each wheel supports 750 kg. | Learn NCERT solution | Education portal Class 11 Physics | Study online Unit-14 Oscillations

Q.21:- You are riding in an automobile of mass 3000 kg. Assuming that you are examining the oscillation characteristics of its suspension system. The suspension sags 15 cm when the entire…

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An air chamber of volume V has a neck area of cross section a into which a ball of mass m just fits and can move up and down without any friction (Fig.14.33). Show that when the ball is pressed down a little and released, it executes SHM. Obtain an expression for the time period of oscillations assuming pressure-volume variations of air to be isothermal. | Learn NCERT solution | Education portal Class 11 Physics | Study online Unit-14 Oscillations

Q.20:- An air chamber of volume V has a neck area of cross section a into which a ball of mass m just fits and can move up and down without…

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One end of a U-tube containing mercury is connected to a suction pump and the other end to atmosphere. A small pressure difference is maintained between the two columns. Show that, when the suction pump is removed, the column of mercury in the U-tube executes simple harmonic motion. | Learn NCERT solution | Education portal Class 11 Physics | Study online Unit-14 Oscillations

Q.19:- One end of a U-tube containing mercury is connected to a suction pump and the other end to atmosphere. A small pressure difference is maintained between the two columns. Show…

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Cylindrical piece of cork of density of base area A and height h floats in a liquid of density ρ1. The cork is depressed slightly and then released. Show that the cork oscillates up and down simple harmonically with a period where ρ is the density of cork. | Learn NCERT solution | Education portal Class 11 Physics | Study online Unit-14 Oscillations

Q.18:- Cylindrical piece of cork of density of base area A and height h floats in a liquid of density ρ1. The cork is depressed slightly and then released. Show that the cork…

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A simple pendulum of length l and having a bob of mass M is suspended in a car. The car is moving on a circular track of radius R with a uniform speed v. If the pendulum makes small oscillations in a radial direction about its equilibrium position, what will be its time period? | Learn NCERT solution | Education portal Class 11 Physics | Study online Unit-14 Oscillations

Q.17:- A simple pendulum of length l and having a bob of mass M is suspended in a car. The car is moving on a circular track of radius R with…

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Answer the following questions: (a) Time period of a particle in SHM depends on the force constant k and mass m of the particle: T = 2π √m/k. A simple pendulum executes SHM approximately. Why then is the time period of a pendulum independent of the mass of the pendulum? (b) The motion of a simple pendulum is approximately simple harmonic for small angle oscillations. For larger angles of oscillation, a more involved analysis shows that T is greater than 2π √l/g Think of a qualitative argument to appreciate this result. (c) A man with a wristwatch on his hand falls from the top of a tower. Does the watch give correct time during the free fall? (d) What is the frequency of oscillation of a simple pendulum mounted in a cabinthat is freely falling under gravity? | Learn NCERT solution | Education portal Class 11 Physics | Study online Unit-14 Oscillations

Q.16:- Answer the following questions: (a) Time period of a particle in SHM depends on the force constant k and mass m of the particle: T = 2π √m/k. A…

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The acceleration due to gravity on the surface of moon is 1.7 ms–2. What is the time period of a simple pendulum on the surface of moon if its time period on the surface of earth is 3.5 s? | Learn NCERT solution | Education portal Class 11 Physics | Study online Unit-14 Oscillations

Q.15:- The acceleration due to gravity on the surface of moon is 1.7 ms–2. What is the time period of a simple pendulum on the surface of moon if its time…

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The piston in the cylinder head of a locomotive has a stroke (twice the amplitude) of 1.0 m. If the piston moves with simple harmonic motion with an angular frequency of 200 rad/min, what is its maximum speed? | Learn NCERT solution | Education portal Class 11 Physics | Study online Unit-14 Oscillations

Q.14:- The piston in the cylinder head of a locomotive has a stroke (twice the amplitude) of 1.0 m. If the piston moves with simple harmonic motion with an angular frequency…

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Figure 14.30 (a) shows a spring of force constant k clamped rigidly at one end and a mass m attached to its free end. A force F applied at the free end stretches the spring. Figure 14.30 (b) shows the same spring with both ends free and attached to a mass m at either end. Each end of the spring in Fig. 14.30(b) is stretched by the same force F. | Learn NCERT solution | Education portal Class 11 Physics | Study online Unit-14 Oscillations

Q.13:- Figure 14.30 (a) shows a spring of force constant k clamped rigidly at one end and a mass m attached to its free end. A force F applied at the…

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