De-broglie wavelength of electron


Question 1:

Critically illustrate out the chief defects of spherical lenses.  Find out the situation for the achromatism of two thin lenses when they are in contact.

Question 2:

Develop the condition for the longitudinal spherical aberration to be minimum in case of a pair of co-axial lens system separated by distance d.

Question 3:

Illustrate out the rate of growth and rate of the decay of sound in auditorium and originate the Sabine’s formula for the reverberation time.

Question 4:

Illustrate out the term absorption coefficient. Discuss the different factors affecting acoustics of the buildings and how these can be rectified.

Question 5:

Develop an expression for internal bending moment of beam in terms of radius of the curvature.

Question 6:

Critically discuss the depression of cantilever and develop the expression for young’s modulus of the beam fixed horizontally at one end and loaded at the other end.

Question 7:

Develop the schroedinger time independent and time dependent wave equations.

Question 8:

Demonstrate with appropriate sketch the experimental verification of matter waves by using Davission-Germer experiment.

Question 9:

Compute the De-Broglie wavelength of electron accelerated by potential difference of the 150 V.

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Physics: De-broglie wavelength of electron
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