Two projectiles thrown at $$30°$$ and $$45°$$ with the horizontal respectively, reach the maximum height in same time. The ratio of their initial velocities is
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Two projectiles thrown at $$30°$$ and $$45°$$ with the horizontal respectively, reach the maximum height in same time. The ratio of their initial velocities is
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Three masses $$M = 100 \text{ kg}$$, $$m_1 = 10 \text{ kg}$$ and $$m_2 = 20 \text{ kg}$$ are arranged in a system as shown in figure. All the surfaces are frictionless and strings are inextensible and weightless. The pulleys are also weightless and frictionless. A force $$F$$ is applied on the system so that the mass $$m_2$$ moves upward with an acceleration of $$2 \text{ m s}^{-2}$$. The value of $$F$$ is (Take $$g = 10 \text{ m s}^{-2}$$)
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A monkey of mass $$50 \text{ kg}$$ climbs on a rope which can withstand the tension ($$T$$) of $$350 \text{ N}$$. If monkey initially climbs down with an acceleration of $$4 \text{ m s}^{-2}$$ and then climbs up with an acceleration of $$5 \text{ m s}^{-2}$$. Choose the correct option ($$g = 10 \text{ m s}^{-2}$$)
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As per the given figure, two blocks each of mass $$250 \text{ g}$$ are connected to a spring of spring constant $$2 \text{ N m}^{-1}$$. If both are given velocity $$v$$ in opposite directions, then maximum elongation of the spring is
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The percentage decrease in the weight of a rocket, when taken to a height of $$32 \text{ km}$$ above the surface of earth will be (Radius of earth $$= 6400 \text{ km}$$)
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A water drop of radius $$1 \text{ cm}$$ is broken into $$729$$ equal droplets. If surface tension of water is $$75 \text{ dyne cm}^{-1}$$, then the gain in surface energy upto first decimal place will be (Given $$\pi = 3.14$$)
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$$7$$ mole of certain monoatomic ideal gas undergoes a temperature increase of $$40 \text{ K}$$ at constant pressure. The increase in the internal energy of the gas in this process is (Given $$R = 8.3 \text{ J K}^{-1} \text{ mol}^{-1}$$)
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A monoatomic gas at pressure $$P$$ and volume $$V$$ is suddenly compressed to one eighth of its original volume. The final pressure at constant entropy will be
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When a particle executes simple Harmonic motion, the nature of graph of velocity as function of displacement will be
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The total charge on the system of capacitance $$C_1 = 1\mu F$$, $$C_2 = 2\mu F$$, $$C_3 = 4\mu F$$ and $$C_4 = 3\mu F$$ connected in parallel is (Assume a battery of $$20 \text{ V}$$ is connected to the combination)
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The current $$I$$ in the given circuit will be
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A charge particle is moving in a uniform magnetic field $$(2\hat{i} + 3\hat{j}) \text{ T}$$. If it has an acceleration of $$(\alpha\hat{i} - 4\hat{j}) \text{ m s}^{-2}$$, then the value of $$\alpha$$ will be
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$$B_X$$ and $$B_Y$$ are the magnetic field at the centre of two coils $$X$$ and $$Y$$ respectively, each carrying equal current. If coil $$X$$ has $$200$$ turns and $$20 \text{ cm}$$ radius and coil $$Y$$ has $$400$$ turns and $$20 \text{ cm}$$ radius, the ratio of $$B_X$$ and $$B_Y$$ is
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In a series $$LR$$ circuit $$X_L = R$$ and power factor of the circuit is $$P_1$$. When capacitor with capacitance $$C$$ such that $$X_L = X_C$$ is put in series, the power factor becomes $$P_2$$. The ratio $$\dfrac{P_1}{P_2}$$ is
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The magnetic field of a plane electromagnetic wave is given by $$\vec{B} = 2 \times 10^{-8} \sin(0.5 \times 10^3 x + 1.5 \times 10^{11} t) \hat{j} \text{ T}$$. The amplitude of the electric field would be
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In Young's double slit experiment, the fringe width is $$12 \text{ mm}$$. If the entire arrangement is placed in water of refractive index $$\dfrac{4}{3}$$, then the fringe width becomes (in mm)
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A parallel beam of light of wavelength $$900 \text{ nm}$$ and intensity $$100 \text{ W m}^{-2}$$ is incident on a surface perpendicular to the beam. The number of photons crossing $$1 \text{ cm}^2$$ area perpendicular to the beam in one second is
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The disintegration rate of a certain radioactive sample at any instant is $$4250$$ disintegrations per minute. $$10$$ minutes later, the rate becomes $$2250$$ disintegrations per minute. The approximate decay constant is (Take $$\log_e 1.88 = 0.63$$)
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A radio can tune to any station in $$6 \text{ MHz}$$ to $$10 \text{ MHz}$$ band. The value of corresponding wavelength bandwidth will be
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A screw gauge of pitch $$0.5 \text{ mm}$$ is used to measure the diameter of uniform wire of length $$6.8 \text{ cm}$$, the main scale reading is $$1.5 \text{ mm}$$ and circular scale reading is $$7$$. The calculated curved surface area of wire to appropriate significant figures is [Screw gauge has $$50$$ divisions on the circular scale]
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In an experiment to determine the Young's modulus of wire of a length exactly $$1 \text{ m}$$, the extension in the length of the wire is measured as $$0.4 \text{ mm}$$ with an uncertainty of $$\pm 0.02 \text{ mm}$$ when a load of $$1 \text{ kg}$$ is applied. The diameter of the wire is measured as $$0.4 \text{ mm}$$ with an uncertainty of $$\pm 0.01 \text{ mm}$$. The error in the measurement of Young's modulus $$(\Delta Y)$$ is found to be $$x \times 10^{10} \text{ N m}^{-2}$$. The value of $$x$$ is ______.
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If the initial velocity in horizontal direction of a projectile is unit vector $$\hat{i}$$ and the equation of trajectory is $$y = 5x(1 - x)$$. The $$y$$ component vector of the initial velocity is ______ $$\hat{j}$$ (Take $$g = 10 \text{ m/s}^2$$)
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A disc of mass $$1 \text{ kg}$$ and radius $$R$$ is free to rotate about a horizontal axis passing through its centre and perpendicular to the plane of disc. A body of same mass as that of disc is fixed at the highest point of the disc. Now the system is released, when the body comes to the lowest position, its angular speed will be $$4\sqrt{\frac{x}{3R}} \text{ rad s}^{-1}$$ where $$x =$$ ______.
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When a car is approaching the observer, the frequency of horn is $$100 \text{ Hz}$$. After passing the observer, it is $$50 \text{ Hz}$$. If the observer moves with the car, the frequency will be $$\dfrac{x}{3} \text{ Hz}$$ where $$x =$$ ______.
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A composite parallel plate capacitor is made up of two different dielectric materials with different thickness ($$t_1$$ and $$t_2$$) as shown in figure. The two different dielectric materials are separated by a conducting foil $$F$$. The voltage of the conducting foil is ______ V.
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Resistances are connected in a meter bridge circuit as shown in the figure. The balancing length $$l_1$$ is $$40 \text{ cm}$$. Now an unknown resistance $$x$$ is connected in series with $$P$$ and new balancing length is found to be $$80 \text{ cm}$$ measured from the same end. Then the value of $$x$$ will be ______ $$\Omega$$.
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The effective current $$I$$ in the given circuit at very high frequencies will be ______ A.
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The graph between $$\dfrac{1}{u}$$ and $$\dfrac{1}{v}$$ for a thin convex lens in order to determine its focal length is plotted as shown in the figure. The refractive index of lens is $$1.5$$ and its both the surfaces have same radius of curvatures $$R$$. The value of $$R$$ will be ______ cm. (Where $$u$$ = object distance, $$v$$ = image distance)
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In a hydrogen spectrum $$\lambda$$ be the wavelength of first transition line of Lyman series. The wavelength difference will be "$$a\lambda$$" between the wavelength of $$3^{rd}$$ transition line of Paschen series and that of $$2^{nd}$$ transition line of Balmer Series where $$a =$$ ______.
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In the circuit shown below, maximum Zener diode current will be ______ mA.
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