-
question_answer1) An experiment is performed to obtain the value of acceleration due to gravity g by using a simple pendulum of length L. In this experiment time for 100 oscillations is measured by using a watch of 1 second least count and the value is 90.0 seconds. The length L is measured by using a meter scale of least count 1 mm and the value is 20.0 cm. The error in the determination of g would be:
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
1.7%
done
clear
B)
2.7%
done
clear
C)
4.4%
done
clear
D)
2.27%
done
clear
View Answer play_arrow
-
question_answer2) The position of a projectile launched from the origin at t = 0is given by \[\vec{r}=\left( 40\hat{i}+50\hat{j} \right)m\]at \[t=2s.\]If the projectile was launched at an angle \[\theta \] from the horizontal, then \[\theta \] is (take \[g=10\,m{{s}^{-2}}\])
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
\[{{\tan }^{-1}}\frac{2}{3}\]
done
clear
B)
\[{{\tan }^{-1}}\frac{3}{2}\]
done
clear
C)
\[{{\tan }^{-1}}\frac{7}{4}\]
done
clear
D)
\[{{\tan }^{-1}}\frac{4}{5}\]
done
clear
View Answer play_arrow
-
question_answer3) Water is flowing at a speed of 1.5 \[\text{m}{{\text{s}}^{\text{-1}}}\] through a horizontal tube of cross-sectional area \[\text{1}{{\text{0}}^{\text{-2}}}{{\text{m}}^{\text{2}}}\]and you are trying to stop the flow by your palm. Assuming that the water stops immediately after hitting the palm, the minimum force that you must exert should be (density of water \[\text{=1}{{\text{0}}^{3}}\text{kg}{{\text{m}}^{-3}}\])
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
15 N
done
clear
B)
22.5 N
done
clear
C)
33.7 N
done
clear
D)
45 N
done
clear
View Answer play_arrow
-
question_answer4) A block A of mass 4 kg is placed on another block B of mass5 kg, and the block B rests on a smooth horizontal table. If the minimum force that can be applied on A so that both the blocks move together is 12 N, the maximum force that can be applied to B for the blocks to move together will be:
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
30 N
done
clear
B)
25 N
done
clear
C)
27 N
done
clear
D)
48 N
done
clear
View Answer play_arrow
-
question_answer5)
Two bodies of masses 1 kg and 4 kg are connected to a vertical spring, as shown in the figure. The smaller mass executes simple harmonic motion of angular frequency 25rad/s, and amplitude 1.6 cm while the bigger mass remains stationary on the ground. The maximum force exerted by the system on the floor is (take \[g=10m{{s}^{-2}}\])
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
20 N
done
clear
B)
10 N
done
clear
C)
60 N
done
clear
D)
40 N
done
clear
View Answer play_arrow
-
question_answer6)
A cylinder of mass \[\text{Mc}\]and sphere of mass \[\text{Ms}\] are placed at points A and B of two inclines, respectively (See Figure). If they roll on the incline without sipping such that their accelerations are the same, then the ratio\[\frac{\sin {{\theta }_{c}}}{\sin {{\theta }_{s}}}\]is?
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
\[\sqrt{\frac{8}{7}}\]
done
clear
B)
\[\sqrt{\frac{15}{14}}\]
done
clear
C)
\[\frac{8}{7}\]
done
clear
D)
\[\frac{15}{14}\]
done
clear
View Answer play_arrow
-
question_answer7)
India's Mangalyan was sent to the Mars by launching it into a transfer orbit EOM around the sun. It leaves the ear that E and meets Mars at M. If the semi-major axis of Earth?s orbit is \[{{a}_{e}}=1.5\times {{10}^{11}}m,\] that of Mars orbit \[{{a}_{m}}=2.28\times {{10}^{11}}m,\]m, taken Kepler?s laws give the estimate of time for Mangalyan to reach Mars from Earth to be close to:
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
500 days
done
clear
B)
320 days
done
clear
C)
260 days
done
clear
D)
220 days
done
clear
View Answer play_arrow
-
question_answer8) In materials like aluminium and copper, the correct order of magnitude of various elastic modulii is:
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
Young's modulus < shear modulus < bulk modulus.
done
clear
B)
Bulk modulus < shear modulus < Young's modulus
done
clear
C)
Shear modulus < Young's modulus < bulk modulus.
done
clear
D)
Bulk modulus < Young's modulus < shear modulus.
done
clear
View Answer play_arrow
-
question_answer9) The amplitude of a simple pendulum, oscillating in air with a small spherical bob, decreases from 10 cm to 8 cm in 40seconds. Assuming that Stokes law is valid, and ratio of the coefficient of viscosity of air to that of carbon dioxide is 1.3. The time in which amplitude of this pendulum will reduce from 10 cm to 5 cm in carbon dioxide will be close to (In 5 =1.601, In 2 = 0.693).
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
231 s
done
clear
B)
208 s
done
clear
C)
161 s
done
clear
D)
142 s
done
clear
View Answer play_arrow
-
question_answer10) A capillary tube is immersed vertically in water and the height of the water column is x. When this arrangement is taken into a mine of depth d, the height of the water column is y. If R is the radius of earth, the ratio\[\frac{x}{y}\]is:
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
\[\left( 1-\frac{d}{R} \right)\]
done
clear
B)
\[\left( 1-\frac{2d}{R} \right)\]
done
clear
C)
\[\left( \frac{R-d}{R+d} \right)\]
done
clear
D)
\[\left( \frac{R+d}{R-d} \right)\]
done
clear
View Answer play_arrow
-
question_answer11) Water of volume 2 L in a closed container is heated with a coil of 1 kW. While water is heated, the container loses energy at a rate of 160 J/s. In how much time will the temperature of water rise from \[27{}^\circ C\] to \[77{}^\circ C\]? (Specific heat of water is 4.2 kJ/kg and that of the container is negligible).
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
8 min 20 s
done
clear
B)
6 min 2 s
done
clear
C)
7 min
done
clear
D)
14 min
done
clear
View Answer play_arrow
-
question_answer12) The equation of state for a gas is given by PV = nRT + aV, where n is the number of moles and a is a positive constant. The initial temperature and pressure of one mole of the gas contained in a cylinder are \[{{T}_{o}}\]and \[{{P}_{o}}\]respectively. The work done by the gas when its temperature doubles isobaric ally will be:
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
\[\frac{{{P}_{o}}{{T}_{o}}R}{{{P}_{o}}-\alpha }\]
done
clear
B)
\[\frac{{{P}_{o}}{{T}_{o}}R}{{{P}_{o}}+\alpha }\]
done
clear
C)
\[{{P}_{o}}{{T}_{o}}R\ln 2\]
done
clear
D)
\[{{P}_{o}}{{T}_{o}}R\]
done
clear
View Answer play_arrow
-
question_answer13) Modern vacuum pumps can evacuate a vessel down to a pressure of \[4.0\times {{10}^{-15}}\]atm. at room temperature (300 K). Taking \[\text{R=8}\text{.0J}{{\text{K}}^{\text{-1}}}\text{mol}{{\text{e}}^{\text{-1}}}\text{,1atm=1}{{\text{0}}^{\text{5}}}\text{Pa}\]and\[{{\text{N}}_{\text{Avogadro}}}=6\times {{10}^{23}}\text{mol}{{\text{e}}^{-1}},\]the mean distance between molecules of gas in an evacuated vessel will be of the order of:
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
0.2 mm
done
clear
B)
0.2 mm
done
clear
C)
0.2 cm
done
clear
D)
0.2 nm
done
clear
View Answer play_arrow
-
question_answer14) A particle which is simultaneously subjected to two perpendicular simple harmonic motions represented by\[;x={{a}_{1}}\cos \omega t\]and\[y={{a}_{2}}\cos 2\omega t\]traces a curve given by:
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
done
clear
B)
done
clear
C)
done
clear
D)
done
clear
View Answer play_arrow
-
question_answer15) A transverse wave is represented by\[y=\frac{10}{\pi }\sin \left( \frac{2\pi }{T}t-\frac{2\pi }{\lambda }x \right)\] For what value of the wavelength the wave velocity is twice the maximum particle velocity?
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
40 cm
done
clear
B)
20 cm
done
clear
C)
10 cm
done
clear
D)
60 cm
done
clear
View Answer play_arrow
-
question_answer16) The magnitude of the average electric field normally present in the atmosphere just above the surface of the Earth is about 150 N/C, directed inward towards the center of the Earth. This gives the total net surface charge carried by the Earth to be: [Given \[{{\varepsilon }_{o}}=8.85\times {{10}^{-12}}{{C}^{2}}/N-{{m}^{2}},{{R}_{E}}=6.37\times {{10}^{6}}m\]]
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
+ 670 kC
done
clear
B)
- 670 kC
done
clear
C)
680 kC
done
clear
D)
+ 680 kC
done
clear
View Answer play_arrow
-
question_answer17) Three capacitors, each of \[3\mu F,\]are provided. These cannot be combined to provide the resultant capacitance of:
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
\[1\mu F\]
done
clear
B)
\[2\mu F\]
done
clear
C)
\[4.5\mu F\]
done
clear
D)
\[6\mu F\]
done
clear
View Answer play_arrow
-
question_answer18) A d.c. main supply of e.m.f. 220 V is connected across a storage battery of e.m.f. 200 V through a resistance of \[1\Omega .\] The battery terminals are connected to an external resistance ?R?. The minimum value of 'R', so that a current passes through the battery to charge it is:
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
\[7\Omega \]
done
clear
B)
\[9\Omega \]
done
clear
C)
\[11\Omega \]
done
clear
D)
Zero
done
clear
View Answer play_arrow
-
question_answer19)
The mid points of two small magnetic dipoles of length d in end-on positions, are separated by a distance x, (x >> d). The force between them is proportional to \[{{x}^{-n}}\] where n is:
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
1
done
clear
B)
2
done
clear
C)
3
done
clear
D)
4
done
clear
View Answer play_arrow
-
question_answer20) The magnetic field of earth at the equator is approximately \[4\times {{10}^{-5}}T.\]The radius of earth is \[6.4\times {{10}^{6}}m.\] Then the dipole moment of the earth will be nearly of the order of:
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
\[{{10}^{23}}A{{m}^{2}}\]
done
clear
B)
\[{{10}^{20}}A{{m}^{2}}\]
done
clear
C)
\[{{10}^{16}}A{{m}^{2}}\]
done
clear
D)
\[{{10}^{10}}A{{m}^{2}}\]
done
clear
View Answer play_arrow
-
question_answer21) When the rms voltages \[{{V}_{L}},{{V}_{C}}\]and \[{{V}_{R}}\] are measured respectively across the inductor L, the capacitor C and the resistor R in a series LCR circuit connected to an AC source, it is found that the ratio \[{{V}_{L}}:{{V}_{C}}:{{V}_{R}}=1:2:3.\]If the rms voltage of the AC sources is 100 V, the \[{{V}_{R}}\] is close to:
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
50 V
done
clear
B)
70 V
done
clear
C)
90 V
done
clear
D)
100 V
done
clear
View Answer play_arrow
-
question_answer22)
Match List I (Wavelength range of electromagnetic spectrum)with List II (Method of production of these waves) and select the correct option from the options given below the lists.
List I |
List II |
(1) 700 nm to 1 mn |
(i) Vibration of atoms and molecules. |
(2) 1 nm to 400 nm |
(ii) Inner shell electrons in atoms moving from one energy level to a lower level. |
(3)\[<{{10}^{-3}}nm\] |
(iii) Radioactive decay of the nucleus. |
(4) 1 mm to 0.1 m |
(iv) Magnetron valve. |
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
(1)-(iv), (2)-(iii), (3)-(ii), (4)-(i)
done
clear
B)
(1)-(iii), (2)-(iv), (3)-(i), (4)-(ii)
done
clear
C)
(1)-(ii), (2)-(iii), (3)-(iv), (4)-(i)
done
clear
D)
(1)-(i), (2)-(ii), (3)-(iii), (4)-(iv)
done
clear
View Answer play_arrow
-
question_answer23) A diver looking up through the water sees the outside world contained in a circular horizon. The refractive index of water is\[\frac{4}{3},\] and the diver?s eyes are 15 cm below the surface of water. Then the radius of the circle is:
A)
\[15\times 3\times \sqrt{5}cm\]
done
clear
B)
\[15\times 3\sqrt{7}cm\]
done
clear
C)
\[\frac{15\times \sqrt{7}}{3}cm\]
done
clear
D)
\[\frac{15\times 3}{\sqrt{7}}cm\]
done
clear
View Answer play_arrow
-
A)
520 nm
done
clear
B)
540 nm
done
clear
C)
560 nm
done
clear
D)
580 nm
done
clear
View Answer play_arrow
-
question_answer25) The focal lengths of objective lens and eye lens of a Galilean telescope are respectively 30 cm and 3.0 cm. telescope produces virtual, erect image of an object situated far away from it at least distance of distinct vision from the eye lens. In this condition, the magnifying power of the Galilean telescope should be:
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
+ 11.2
done
clear
B)
- 11.2
done
clear
C)
8.8
done
clear
D)
+ 8.8
done
clear
View Answer play_arrow
-
question_answer26) For which of the following particles will it be most difficult to experimentally verify the de-Broglie relationship?
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
an electron
done
clear
B)
a proton
done
clear
C)
an\[\text{ }\!\!\alpha\!\!\text{ }\]particle
done
clear
D)
a dust particle
done
clear
View Answer play_arrow
-
question_answer27) The binding energy of the electron in a hydrogen atom is13.6 eV, the energy required to remove the electron from the first excited state of \[\text{L}{{\text{i}}^{\text{++}}}\] is:
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
122.4 eV
done
clear
B)
30.6 eV
done
clear
C)
13.6 eV
done
clear
D)
3.4 eV
done
clear
View Answer play_arrow
-
question_answer28)
Identify the gate and match A, B, Y in bracket to check.
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
AND (A = 1, B = 1, Y = 1)
done
clear
B)
OR (A = 1, B = 1, Y = 0)
done
clear
C)
NOT (A = 1, B = 1, Y = 1)
done
clear
D)
XOR (A = 0, B = 0, Y = 0)
done
clear
View Answer play_arrow
-
question_answer29) A transmitting antenna at the top of a tower has height 32 m and height of the receiving antenna is 50 m. What is the maximum distance between them for satisfactory communication in line of sight (LOS) mode?
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
55.4 km
done
clear
B)
45.5 km
done
clear
C)
54.5 km
done
clear
D)
455 km
done
clear
View Answer play_arrow
-
question_answer30) An n-p-n transistor has three leads A, B and C. Connecting B and C by moist fingers, A to the positive lead of an ammeter, and C to the negative lead of the ammeter, one finds large deflection. Then, A, B and C refer respectively to:
[JEE Main Online Paper ( Held On 09 Apirl 2014 )
A)
Emitter, base and collector
done
clear
B)
Base, emitter and collector
done
clear
C)
Base, collector and emitter
done
clear
D)
Collector, emitter and base.
done
clear
View Answer play_arrow