Assertion : Adiabatic expansion is always accompanied by fall in temperature. Reason : In adiabatic process, volume is inversely proportional to temperature.

Assertion : Adiabatic expansion is always accompanied by fall in …

A perfect gas goes from state $A$ to another state $B$ by absorbing $8 \times {10^5}J$ of heat and doing $6.5 \times {10^5}J$ of external work. It is now transferred between the same two states in another process in which it absorbs ${10^5}J$ of heat. Then in the second process

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A ball of mass $400\, gm$ is dropped from a height of $5\,m.$ A boy on the ground hits the ball vertically upwards with a bat with an average force of $100$ newton so that it attains a vertical height of $ 20 \,m$. The time for which the ball remains in contact with the bat is ........... $\sec$. $[g = 10\,m/{s^2}]$

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In Young's double slit experiment the $y$ -coordinates of central maximum and $10^{th}$ maxima are $2\, cm$ and $5\, cm$ respectively. When the $YDSE$ apparatus is immersed in a liquid of refractive index $1.5$, the corresponding $y$ -coordinates will be

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A capacitor is fully charged with a battery. Then the battery is removed and coil is connected with the capacitor in parallel, current varies as

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A steel wire can sustain $100\,kg$ weight without breaking. If the wire is cut into two equal parts, each part can sustain a weight of ......... $kg$

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The electric field intensity at a point in vacuum is equal to

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Assertion : When ultraviolet light is incident on a photocell, its stopping potential is $V_0$ and the maximum kinetic energy of the photoelectrons is $K_{max}$ .When the ultraviolet light is replaced by $X-$ rays, both $V_0$ and $K_{max}$ increase.
Reason : Photoelectrons are emitted with speeds ranging from zero to a maximum value because of the range of frequencies present in the incident light.

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The frequency of a stretched uniform wire under tension is in resonance with the fundamental frequency of a closed tube. If the tension in the wire is increased by $8 N,$ it is in resonance with the first overtone of the closed tube. The initial tension in the wire is .... $N$

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Two blocks $A$ and $B$ of equal masses are sliding down along straight parallel lines on an inclined plane of $45^o$ . Their coefficients of kinetic friction are $\mu _A = 0.2$ and $\mu _B = 0.3$ respectively. At $t = 0$ , both the blocks are at rest and block $A$ is $\sqrt 2$ metre behind block $B$ . The time and distance from the initial position where the front faces of the blocks come in line on the inclined plane as shown in figure. (Use $g = 10\, ms^{-2}$ )

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A particle of unit mass is moving along the $x$-axis under the influence of a force and its total energy is conserved. Four possible forms of the potential energy of the particle are given in column $I$ (a and $U _0$ are constants). Match the potential energies in column $I$ to the corresponding statement$(s)$ in column $II.$

column $I$	column $II$
$(A)$ $U _1( x )=\frac{ U _0}{2}\left[1-\left(\frac{ x }{ a }\right)^2\right]^2$	$(P)$ The force acting on the particle is zero at $x = a$.
$(B)$ $U _2( x )=\frac{ U _0}{2}\left(\frac{ x }{ a }\right)^2$	$(Q)$ The force acting on the particle is zero at $x=0$.
$(C)$ $U _3( x )=\frac{ U _0}{2}\left(\frac{ x }{ a }\right)^2 \exp \left[-\left(\frac{ x }{ a }\right)^2\right]$	$(R)$ The force acting on the particle is zero at $x =- a$.
$(D)$ $U _4( x )=\frac{ U _0}{2}\left[\frac{ x }{ a }-\frac{1}{3}\left(\frac{ x }{ a }\right)^3\right]$	$(S)$ The particle experiences an attractive force towards $x =0$ in the region $\| x \|< a$.
	$(T)$ The particle with total energy $\frac{ U _0}{4}$ can oscillate about the point $x=-a$.

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STD 11 - 11. thermodynamics — NEET STD 11 Science — Question

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