In a Carnot engine efficiency is 40% at hot reservoir temperature T.For efficiency 50%, what will be the temperature of hot reservoir?

T
²⁄₃T
⁴⁄₅T
⁶⁄₅T

Solution

One quarter sector is cut from a uniform circular disc of radius R. This sector has mass M. It is made to rotate about a line perpendicular to its plane and passing through the centre of the original disc. Its moment of inertia about the axis of rotation is

¹⁄₂ mR²
¹⁄₄ mR²
¹⁄₈ mR²
√2 mR²

Solution

For complete disc with mass '4M', M.I. about given axis = (4M)(R²/2) = 2 MR²

Hence, by symmetry, for the given quarter of the disc

M.I. = 2 MR²/4 = ¹⁄₂ MR²

A and B are two metals with threshold frequencies 1.8 × 10¹⁴Hz and 2.2 × 10¹⁴Hz.Two identical photons of energy 0.825 eV each are incident on them. Then photoelectrons are emitted in (Take h = 6.6 × 10^–34Js)

B alone
A alone
neither A nor B
both A and B.

Solution

A motor of 100 H.P. moves a load with a uniform speed of 72 km/hr. The forward thrust applied by the engine on the caris

1111 N
3550 N
2222 N
3730 N

Solution

Forward thrust, F=\(\frac{p}{v}=\frac{100\times 746}{20}=3730\: N.\)

A uniform wire of length 20 m and weighing 5 kg hangs vertically.If g = 10 m/s², then the speed of transverse waves in the middle of the wire is

10 m/s
10²m/s
4 m/s
zero

Solution

Two similar coils of radius Rare lying concentrically with their planes at right angles to each other. The currents flowing in them are I and 2 I, respectively. The resultant magnetic field induction at the centre will be

\(\frac{\sqrt{5}\mu _{0}I}{2R}\)
\(\frac{3\mu _{0}I}{2R}\)
\(\frac{\mu _{0}I}{2R}\)
\(\frac{\mu _{0}I}{R}\)

Solution

A particle moves along a circle of radius \(\left ( \frac{20}{\pi } \right )\)m with constant tangential acceleration. It the velocity of particle is 80 m/sec at end of second revolution after motion has begun, the tangential acceleration is

40 π m/sec²
40 m/sec²
640 π m/sec²
160 π m/sec²

Solution

Circumference of circle is 2πr = 40m

Total distance travelled in two revolution is 80m. Initial velocity u =0, final veloctiy v = 80 m/sec

so from

v²=u² + 2as

⇒ (80)² = 0² + 2 × 80 × a

⇒ a = 40m/sec²

Fraction of tritium left after 150 years (half life of tritium is 12.5 years) is

1/ 1024
1/2048
1/4096
1/8192

Solution

If voltage across a bulb rated 220 Volt-100 Watt drops by 2.5% of its rated value, the percentage of the rated value by which the power would decrease is

20%
2.5%
5%
10%

Solution

DIRECTIONS: These are Assertion-Reason type questions. Each of these question contains two statements:Statement-1 (Assertion) and Statement-2 (Reason). Answer these questions from the following four options.

Statement-1 Stress is the internal force per unit area of a body.

Statement-2 Rubber is less elastic than steel.

(a)Statement-1 is True, Statement-2 is True;Statement-2 is a correct explanation for Statement -1
(b)Statement-1 is True, Statement -2 is True; Statement-2 is NOT a correct explanation for Statement - 1
(c)Statement-1 is True, Statement- 2 is False
(d)Statement-1 is False, Statement -2 is True

Solution

(b)Statement-1 is True, Statement -2 is True; Statement-2 is NOT a correct explanation for Statement - 1

Stress is defined as internal force (restoring force) perunit area of a body. Also, rubber is less elastic than steel, because restoring force is less for rubber than steel.

Two forces are such that the sum of their magnitudes is 18 N and their resultant is 12 N which is perpendicular to the smaller force. Then the magnitudes of the forces are

12 N,6 N
13 N, 5 N
10 N,8 N
16 N, 2 N

Solution

Force between two plates of a capacitor is

\(\frac{Q}{\varepsilon _{0}A}\)
\(\frac{Q^{2}}{2\varepsilon _{0}A}\)
\(\frac{Q^{2}}{\varepsilon _{0}A}\)
None of these

Solution

The earth is assumed to be sphere of radius R. A platform is arranged at a height R from the surface of Earth.The escape velocity of a body from this platform is kv, where v is its escape velocity from the surface of the earth. The value of k is

¹⁄_√2
¹⁄₃
¹⁄₂
√2

Solution

A coin placed on a gramophone record rotating at 33 rpm flies off the record, if it is placed at a distance of more than 16cm from the axis of rotation. If the record is revolving at 66 rpm, the coin will fly off if it is placed at a distance not less than

1 cm
2 cm
3 cm
4 cm

Solution

Two tones of frequencies n₁ and n₂ are sounded together.The beats can be heard distinctly when

10 < (n₁– n₂) < 20
5< (n₁– n₂) > 20
5< (n₁– n₂) < 20
0< (n₁ – n₂) < 10

Solution

As number of beats/sec = diff. in frequencies has to be less than 10, therefore 0 <(n₁–n₂) < 10

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