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Which of the following is/are a unit vector for all values of $\theta ?$

From a solid sphere of mass $M$ and radius $R$, a spherical portion of radius $\frac{R}{2}$ is removed, as shown in the figure. Taking gravitational potential $V=0$ at $r=\infty$ , the potential at the centre of the cavity thus formed is

($G=$ gravitational constant)

A particle goes in a circle of radius 2.0 cm. A concave mirror of focal length 20 cm is placed with its principal axis passing through the centre of the circle and perpendicular to its plane. The distance between the pole of the mirror and the centre of the circle is 30 cm. Calculate the radius of the circle formed by the image.

Acceleration versus velocity graph of a particle moving in a straight line starting from rest is as shown in figure. The corresponding velocity-time graph would be:

A body of mass 2 kg moving with a velocity $(\hat{i}+2\hat{j}-3\hat{k})m{s}^{-1}$ collides with another body of mass 3 kg moving with a velocity $(2\hat{i}+\hat{j}+\hat{k})$ in $m{s}^{-1}$. If they stick together, the velocity in $m{s}^{-1}$ of the composite body is

The length of a conical pendulum is $l=2\text{m}$ and its bob has a mass of $m=0.2\text{kg}$. The string will break if the tension $T$ exceeds $4\text{N}$ and $g=10{\text{m/s}}^2$. Then the smallest angle the string can make with the horizontal is

Two plane mirrors are inclined to each other such that a ray of light incident on the first mirror $\left(M_1\right)$ and parallel to the second mirror $\left(M_2\right)$ is finally reflected from second mirror $M_2$ parallel to the first mirror $\left(M_1\right)$. The angle between the two mirrors will be

Air is pumped into an automobile tyre's tube up to a pressure of 200 kPa in the morning when the air temperature is 200${}^{\circ }$C. During the day the temperature rises to 400${}^{\circ }$C and the tube expands by 2%. Calculate the pressure of the air in the tube at this temperature

A small ball of mass $m$ and charge $+q$ tied with a string of length $l$, rotating in a vertical circle under gravity and a uniform horizontal electric field $E$ as shown. The tension in the string will be minimum for

Two wires are wrapped over a wooden cylinder to form two co-axial loops carrying current $i_1$ and $i_2$ in the opposite directons as shown in figure. If $i_2=8i_1$, then the value of $x$ (see the figure) for which $B=0$ at the origin

Power supplied to a particle of mass $2\text{kg}$ varies with time as $P=\frac{3t^2}{2}$ watt. Here $t$ is in second. If velocity of particle at $t=0$ is $v=0$. The velocity of particle at time $t=2$ s will be

Three particles of mass m each are placed at the three corners of an equilateral triangle of side a. Find the work wihch should be done on this system to increase th esides of the triangle to 2a.

Two racing cars of masses $m_1$ and $m_2$ are moving in circles of radii $r_1$ and $r_2$ respectively. Their speeds are such that each makes a complete circle in the same time $t$. The ratio of the angular speeds of the first to the second car is

a plate of thickness t made of a material of refractive index $\mu$ is placed in front of one of the slits in a double slit experiment (a) Find the change in th eoptical path due to introduction of th plate. (b) What should be the minimum thickness t which will make the intensity at the centre of the fringe pattern zero? WAvelength of the light used is $\lambda$ Neglect any absorption of light in the plate.

May I know what is Motion

A boy starts from point A and reaches to point E as shown in figure. If he takes 3 minutes to travel between any two consecutive points, then which of the following distance-time graph best represents it?



एक लड़का बिंदु A से गति करना प्रारम्भ करता है तथा चित्र में दर्शाए अनुसार बिंदु E पर पहुँचता है। यदि वह किन्हीं दो क्रमिक बिंदुओं के मध्य गति करने में 3 मिनट लेता है, तब निम्न में से कौनसा दूरी-समय आरेख इसे सबसे सही रूप से प्रदर्शित करता है?

In the given diagram, with what force must the man pull the rope to hold the plank in position? $($Mass of the man is $80k$; neglect the weight of the plank, rope and pulley; take $g=10{m/s}^2)$

If the maximum velocity and accelaration of a particle executing SHM are equal in magnitude,the time period will be :

A)1.57sec B)3.14sec C)6.28sec D)12.56sec

In YDSE experiment a glass plate of refractive index 1.5 is placed infront of one of the slits. Minimum thickness 't' of this glass plate so that intensity of light at position of central maxima [before glass plate] remains unchanged is

The phase difference between two points separated by $0.8\text{m}$ in a wave of frequency $120\text{Hz}$ is $0.5\pi$. The wave velocity is

A beam of light converges to a point $P$. A concave lens of focal length $16cm$ is placed in the path of the convergent beam $12cm$ from $P$. How far from the lens does the beam converge?

A vernier callipers has 25 divisions on its vernier scale for every 35 divisions on its main scale. If 1 cm on the main scale is split into 12 units, the least count of the callipers will be

A rectangular lamina of mass $6\text{kg}$ is placed in such a way that the centre of rectangular lamina coincides with the origin($\text{O}$) as shown in figure. If $I_x$ and $I_y$ are the moment of inertia of rectangular lamina about x - axis and y - axis respectively, then find the ratio $\frac{I_x}{I_y}$.

A Pump supplies oil at $0.002m^3/sec.$ to a 50 mm diameter double acting cylinder and a rod diameter is 20 mm. If the load is 6000 N bolts in extending and retracting stroke, the piston velocity during the extension and retraction stroke are

The frequency of a tuning fork is $384\text{Hz}$ and velocity of sound in air is $352{\text{ms}}^{-1}$. How far sound has travelled when fork completes 36 vibrations?

A spherical mirror forms an image of magnification m=±3. The object distance, if focal length of mirror is 24 cm, may be

Under isothermal condition two soap bubbles of radii $r_1\text{and}{r}_2$ coalesce to form a single bubble of radius $r$. The external pressure is $P_0$. Find the surface tension of the soap in terms of the given parameters.

A proton and an $\alpha -$ particle enter the same magnetic field which is perpendicular to their velocity. If both particles have same kinetic energy, then the ratio of their radii of the circular path is

A concave mirror and a convex mirror of focal lengths $10\text{cm}$ and $15\text{cm}$ are placed at a distance of $70\text{cm}$. An object $\text{AB}$ of height $2\text{cm}$ is placed at a distance of $30\text{cm}$ from the concave mirror as shown in the figure. If at first, ray is incident on the concave mirror and then on the convex mirror.Find the size and position of the image,

If $\int {\cos }^{4}xdx=Ax+B\sin 2x+C\sin 4x+D$, then $\{A,B,C\}$ equals

Figure
13.8 shows plot of PV/T
versus Pfor
1.00×10^–3
kg of oxygen gas at two different temperatures.

(a) What
does the dotted plot signify?

(b) Which
is true: T₁
> T₂
or T₁
< T₂?

(c) What
is the value of PV/T
where the
curves meet on the y-axis?

(d) If we obtained similar
plots for 1.00 ×10^–3
kg of hydrogen, would we get the same value of PV/T
at the
point where the curves meet on the y-axis?
If not, what mass of hydrogen yields the same value of PV/T
(for low
pressure high temperature region of the plot)? (Molecular mass of H₂
= 2.02
u, of O₂
= 32.0 u, R
= 8.31 J
mo1^–1
K^–1.)