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Title Name | ignou PHE 2 BPHE 102 solved assignment 2024 |
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Type | Soft Copy (E-Assignment) .pdf |
University | IGNOU |
Degree | BACHELOR DEGREE PROGRAMMES |
Course Code | BSC |
Course Name | Bachelor in Science |
Subject Code | PHE 2 BPHE 102 |
Subject Name | Oscillations and Waves |
Year | 2024 |
Session | - |
Language | English Medium |
Assignment Code | PHE-02/Assignmentt-1//2024 |
Product Description | Assignment of BSC (Bachelor in Science) 2024. Latest PHE 02 2024 Solved Assignment Solutions |
Last Date of IGNOU Assignment Submission | Last Date of Submission of IGNOU PHE-02 (BSC) 2024 Assignment is for January 2024 Session: 30th September, 2024 (for December 2024 Term End Exam). Semester Wise January 2024 Session: 30th March, 2024 (for June 2024 Term End Exam). July 2024 Session: 30th September, 2024 (for December 2024 Term End Exam). |
Assignment Code | PHE 2 BPHE 102/2024 |
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Ques 1.
i) An object is executing simple harmonic motion. Obtain expressions for its kinetic and potential energies.
ii) A spring mass system is characterized by and The system is oscillating with amplitude of 0.40 m. Obtain an expression for the velocity of the block as a function of displacement and calculate its value a
Ques 2.
b) Consider a particle undergoing simple harmonic motion. The velocity of the particle at position is and velocity of the particle at position is Show that the ratio of time period (T) and amplitude (A) is:
Ques 3.
c) Establish the equation of motion of a damped oscillator. Solve it for a weakly damped oscillator and discuss the significance of the results.
Ques 4.
d) A body of mass 0.2 kg is suspended from a spring of force constant 80 A
damping force is acting on the system for which γ = 4 Nsm−1. Write down the equation of motion of the system and calculate the period of its oscillations. Now a harmonic force F =10cos10t is applied. Calculate a and θ when the steady state
response is given by a cos(ωt − θ).
Ques 5.
Consider N identical masses connected through identical springs of force constant k. The free ends of the coupled system are rigidly fixed at and The masses are made to execute longitudinal oscillations on a frictionless table.
i) Depict the equilibrium as well as instantaneous configurations.
ii) Write down their equations of motion, decouple them and obtain frequencies of normal modes.
Ques 6.
a) A Transverse waves propagating on a stretched string encounter another string of different characteristic impedance. (i) Write down the equations of particle displacement due to the incident, reflected and transmitted waves. (ii) Specify the boundary conditions and (iii) use these to obtain expressions for reflection and
transmission amplitude coefficients.
Ques 7.
i) A sound wave of frequency 400 Hz travels in air at a speed of 320 Calculate the phase difference between two points on the wave separated by a distance of 0.2 m along the direction of travel of the wave.
Ques 8.
ii) A train moving with speed 72 km emits a whistle of frequency 500 Hz. A person is standing stationary on the platform. Calculate the frequency heard by the person if the train (i) approaches and (ii) recedes away from the listener
Ques 9.
c) i) The equation of transverse wave on a string is given by
where y and x are in cm and t is in second. Calculate the maximum speed of a particle on the string and wavelength of the wave.
ii) The linear density of a vibrating string is A transverse wave is propagating on the string and is described by the equation: sin
where x and y are in meters and t is in seconds. Calculate the tension in the string.
Ques 10.
d) Standing waves are produced by superposition of the following waves: and
(i) Obtain the resultant displacement of the particle at x at time t. (ii) For what value of x will the displacement be zero at all times? (iii) What is the distance between two nearest values of x at which displacements are zero? Is this distance related to the wavelength of the standing wave?
Ques 11.
e) i) Show that only odd harmonics can be generated in a closed-end organ pipe.
ii) Determine the fundamental frequency and the first 3 overtones of an organ pipe
of length 1.7 m and closed at one end. Take the speed of sound to be 340
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