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HSC Science (Electronics) १२ वीं कक्षा - Maharashtra State Board Question Bank Solutions

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The dimensions of universal gravitational constant are........................

a. [L1M0T0]

b. [L2M1T0]

c. [L-1M1T-2]

d. [L3M-1T-2]

[2] Gravitation
Chapter: [2] Gravitation
Concept: undefined >> undefined

Calculate the period of revolution of Jupiter around the Sun. The ratio of the radius of Jupiter’s orbit to that of the Earth’s orbit is 5.

(Period of revolution of the Earth is 1 year)

[2] Gravitation
Chapter: [2] Gravitation
Concept: undefined >> undefined

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Electric field intensity in free space at a distance ‘r’ outside the charged conducting sphere of radius ‘R’ in terms of surface charge density ‘ a ’ is............................

(a)`sigma / in_0[R/r]^2`

(b)`in_0/sigma[R/r]^2`

(c)`R/r[sigma/in_0]^2`

(d)`R/sigma[r/in_0]^2`

 

[16] Electromagnetic Inductions
Chapter: [16] Electromagnetic Inductions
Concept: undefined >> undefined

Electric field intensity in free space at a distance ‘r’ outside the charged conducting sphere of radius ‘R’ in terms of surface charge density ‘ a ’ is............................

(a)`sigma / in_0[R/r]^2`

(b)`in_0/sigma[R/r]^2`

(c)`R/r[sigma/in_0]^2`

(d)`R/sigma[r/in_0]^2`

 

[12] Electromagnetic Induction
Chapter: [12] Electromagnetic Induction
Concept: undefined >> undefined

The magnetic flux through a loop varies according to the relation Φ = 8t2 + 6t + C, where ‘C’ is constant, 'Φ' is in milliweber and 't' is in second. What is the magnitude of induced e.m.f. in the loop at t = 2 seconds.

[12] Electromagnetic Induction
Chapter: [12] Electromagnetic Induction
Concept: undefined >> undefined

The magnetic flux through a loop varies according to the relation Φ = 8t2 + 6t + C, where ‘C’ is constant, 'Φ' is in milliweber and 't' is in second. What is the magnitude of induced e.m.f. in the loop at t = 2 seconds.

[16] Electromagnetic Inductions
Chapter: [16] Electromagnetic Inductions
Concept: undefined >> undefined

An electron is orbiting in 5th Bohr orbit. Calculate ionisation energy for this atom, if the ground state energy is -13.6 eV.

[18] Atoms, Molecules and Nuclei
Chapter: [18] Atoms, Molecules and Nuclei
Concept: undefined >> undefined

Obtain an expression for the radius of Bohr orbit for H-atom.

[18] Atoms, Molecules and Nuclei
Chapter: [18] Atoms, Molecules and Nuclei
Concept: undefined >> undefined

A seconds pendulum is suspended in an elevator moving with constant speed in downward direction. The periodic time (T) of that pendulum is _______.

[4] Oscillations
Chapter: [4] Oscillations
Concept: undefined >> undefined

The periodic time of a linear harmonic oscillator is 2π second, with maximum displacement of 1 cm. If the particle starts from extreme position, find the displacement of the particle after π/3  seconds.

[4] Oscillations
Chapter: [4] Oscillations
Concept: undefined >> undefined

Show that all harmonics are present on a stretched string between two rigid supports.

[8] Stationary Waves
Chapter: [8] Stationary Waves
Concept: undefined >> undefined

State Bohr’s third postulate for hydrogen (H2) atom. Derive Bohr’s formula for the wave number. Obtain expressions for longest and shortest wavelength of spectral lines in ultraviolet region for hydrogen atom

[18] Atoms, Molecules and Nuclei
Chapter: [18] Atoms, Molecules and Nuclei
Concept: undefined >> undefined

The photoelectric current in a photoelectric cell can be reduced to zero by a stopping potential of 1.8 volt. Monochromatic light of wavelength 2200Å is incident on the cathode. Find the maximum kinetic energy of the photoelectrons in joules. [Charge on electron = 1.6 x 10-19 C]

[17] Electrons and Photons
Chapter: [17] Electrons and Photons
Concept: undefined >> undefined

Draw a neat labelled circuit diagram of experimental arrangement for study of photoelectric effect.

[17] Electrons and Photons
Chapter: [17] Electrons and Photons
Concept: undefined >> undefined

A parallel beam of monochromatic light is incident on a glass slab at an angle of incidence 60o. Find the ratio of width of the beam in the glass to that in the air if refractive index of glass is 3/2.

[11] Interference and Diffraction
Chapter: [11] Interference and Diffraction
Concept: undefined >> undefined

The co-efficient of reflection of an opaque body is 0.16. Its co-efficient of emission is ........................................

  1. 0.94
  2. 0.84
  3. 0.74
  4. 0.64
[11] Interference and Diffraction
Chapter: [11] Interference and Diffraction
Concept: undefined >> undefined

Draw neat, labelled diagrams for the modes of vibration of a stretched string in second harmonic and third harmonic.

[8] Stationary Waves
Chapter: [8] Stationary Waves
Concept: undefined >> undefined

Explain the formation of energy band diagram in case of conductor and semiconductor.

[19] Semiconductors
Chapter: [19] Semiconductors
Concept: undefined >> undefined

State the conditions to get steady interference pattern.

[11] Interference and Diffraction
Chapter: [11] Interference and Diffraction
Concept: undefined >> undefined

In a hydrogen atom, an electron carrying charge 'e' revolves in an orbit of radius 'r' with speed 'v'. Obtain an expression for the magnitude of magnetic moment of a revolving electron.

[15] Magnetism
Chapter: [15] Magnetism
Concept: undefined >> undefined
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