Download App

Wave Optics — Physics STD 12 Science — Question

Maharashtra BoardEnglish MediumSTD 12 SciencePhysicsWave Optics4 Marks
Question
Represent graphically intensity distribution in
(a) Young’s double-slit interference
(b) single- slit diffraction and
(c) double-slit diffraction

Answer

Get the step-by-step solution for this question inside the Vidyadip app.

Get the answer in the app

Need a full question paper?

Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.

Start Generating Free

Explore more

More "Answer the following in Detail" from Wave OpticsWave Optics — all question typesPhysics STD 12 Science question papersMaharashtra Board STD 12 Science question papersMaharashtra Board question paper generator

Similar questions

Derive an expression for the effective or equivalent capacitance (capacity) of a combination of a number of capacitors connected in series.
OR
Derive an expression for the effective capacitance of three capacitors connected in series.
Explain the terme sharpness of resonance and $Q$ factor (quality factor).
Two resistances, $20 \Omega$ and $30 \Omega$, are connected across the two gaps of a metre bridge as shown in the following figure.
Image
The bridge wire has diameter $0.5\ mm$ and resistance $2 \Omega$. The emf of the cell is $2 V$. Assume that the internal resistance of the cell is zero. Calculate $(I)$ the resistivity $($specific resistance$)$ of the material of the bridge wire $(ii)$ the current provided by the cell when the bridge is balanced.
Explain any two applications of beats.
Obtain the expression for the resonant frequency of the LCR series circuit and explain electrical resonance in an LCR series circuit.
Two sources of sound are separated by a distance 4 m. They both emit sound with the same amplitude and frequency (330 Hz), but they are 180º out of phase. At what points between the two sources, will the sound intensity be maximum? (Take velocity of sound to be 330 m/s) 
Find the moment of inertia of a hydrogen molecule about its centre of mass if the mass of each hydrogen atom is $m$ and the distance between them is $R$.
A small-blackened solid copper sphere of radius $2.5\ cm$ is placed in an evacuated chamber. The temperature of the chamber is maintained at $100^{\circ} C$. At what rate energy must be supplied to the copper sphere to maintain its temperature at $110^{\circ} C$ ? (Take Stefan's constant $\sigma$ to be $5.670 \times 10^{-8} J s ^{-1} m^{-2} K^{-4}, \pi=3.1416$ and treat the sphere as a blackbody.)
The equation of a simple harmonic progressive wave is given by $y=4 \sin \pi\left(\frac{t}{0.02}-\frac{x}{75}\right)$. Find the displacement and velocity of a particle at $50 cm$ from the origin and at $0.1$ second. (All quantities are expressed in CGS units.)
Two cells of emf $1.5$ Volt and $2$ Volt having respective internal resistances of $1 \Omega$ and $2 \Omega $ are connected in parallel so as to send current in same direction through an external resistance of $5 \Omega $. Find the current through the external resistance.