1
IIT-JEE 2012 Paper 2 Offline
MCQ (Single Correct Answer)
+3
-1

An infinite long hollow conducting cylinder with inner radius R/2 and outer radius R carries a uniform current density along its length. The magnitude of the magnetic field, $$\left| {\overrightarrow B } \right|$$ as a function of the radial distance r from the axis is best represented by

A
IIT-JEE 2012 Paper 2 Offline Physics - Magnetism Question 15 English Option 1
B
IIT-JEE 2012 Paper 2 Offline Physics - Magnetism Question 15 English Option 2
C
IIT-JEE 2012 Paper 2 Offline Physics - Magnetism Question 15 English Option 3
D
IIT-JEE 2012 Paper 2 Offline Physics - Magnetism Question 15 English Option 4
2
IIT-JEE 2012 Paper 2 Offline
MCQ (Single Correct Answer)
+3
-1

The general motion of a rigid body can be considered to be a combination of (i) a motion of its centre of mass about an axis, and (ii) its motion about an instantaneous axis passing through the centre of mass. These axes need not be stationary. Consider, for example, a thin uniform disc welded (rigidly fixed) horizontally at its rim to a massless stick, as shown in the figure. When the disc-stick system is rotated about the origin on a horizontal frictionless plane with angular speed $$\omega$$, the motion at any instant can be taken as a combination of (i) a rotation of the centre of mass of the disc about the z-axis, and (ii) a rotation of the disc through an instantaneous vertical axis passing through its centre of mass (as it seen from the changed orientation of points P and Q). Both these motions have the same angular speed $$\omega$$ in this case.

IIT-JEE 2012 Paper 2 Offline Physics - Rotational Motion Question 22 English Comprehension 1

Now consider two similar systems as shown in the figure.

Case (a) : The disc with its face vertical and parallel to x-z axis;

Case (b) : The disc with its face making an angle of 45$$^\circ$$ with xy-plane and its horizontal diameter parallel to x-axis.

In both the cases, the disc is welded at point P, and the systems are rotated with constant angular speed $$\omega$$ about the z-axis.

IIT-JEE 2012 Paper 2 Offline Physics - Rotational Motion Question 22 English Comprehension 2

Which of the following statements about the instantaneous axis (passing through the centre of mass) is correct?

A
It is vertical for both Cases (a) and (b).
B
It is vertical for Case (a); and is at 45$$^\circ$$ to the xz-plane and lies in the plane of the disc for Case (b).
C
It is horizontal for Case (a); and is 45$$^\circ$$ to the xz-plane and is normal to the plane of the disc for Case (b).
D
It is vertical for Case (a); and is 45$$^\circ$$ to the xz-plane and is normal to the plane of the disc for Case (b).
3
IIT-JEE 2012 Paper 2 Offline
MCQ (Single Correct Answer)
+3
-1

The general motion of a rigid body can be considered to be a combination of (i) a motion of its centre of mass about an axis, and (ii) its motion about an instantaneous axis passing through the centre of mass. These axes need not be stationary. Consider, for example, a thin uniform disc welded (rigidly fixed) horizontally at its rim to a massless stick, as shown in the figure. When the disc-stick system is rotated about the origin on a horizontal frictionless plane with angular speed $$\omega$$, the motion at any instant can be taken as a combination of (i) a rotation of the centre of mass of the disc about the z-axis, and (ii) a rotation of the disc through an instantaneous vertical axis passing through its centre of mass (as it seen from the changed orientation of points P and Q). Both these motions have the same angular speed $$\omega$$ in this case.

IIT-JEE 2012 Paper 2 Offline Physics - Rotational Motion Question 21 English Comprehension 1

Now consider two similar systems as shown in the figure.

Case (a) : The disc with its face vertical and parallel to x-z axis;

Case (b) : The disc with its face making an angle of 45$$^\circ$$ with xy-plane and its horizontal diameter parallel to x-axis.

In both the cases, the disc is welded at point P, and the systems are rotated with constant angular speed $$\omega$$ about the z-axis.

IIT-JEE 2012 Paper 2 Offline Physics - Rotational Motion Question 21 English Comprehension 2

Which of the following statements regarding the angular speed about the instantaneous axis (passing through the centre of mass) is correct?

A
It is $$\sqrt2$$$$\omega$$ for both cases.
B
It is $$\omega$$ for case (a); and $$\omega$$ / $$\sqrt2$$ for case (b).
C
It is $$\omega$$ for case (a); and $$\sqrt2$$$$\omega$$ for case (b).
D
It is $$\omega$$ for both cases.
4
IIT-JEE 2012 Paper 2 Offline
MCQ (Single Correct Answer)
+3
-1

The $$\beta$$-decay process, discovered in around 1900, is basically the decay of a neutron (n). In the laboratory, a proton (p) and an electron (e$$-$$) are observed as the decay products of the neutron. Therefore, considering the decay of a neutron as a two-body decay process, it was predicted theoretically that the kinetic energy of the electron should be a constant. But experimentally, it was observed that the electron kinetic energy has continuous spectrum. Considering a three-body decay process, that is, n $$\to$$ p + e$$-$$ + $${\overline v _e}$$, around 1930, Pauli explained the observed electron energy spectrum. Assuming the anti-neutrino ($${\overline v _e}$$) to be massless and possessing negligible energy, and the neutron to be at rest, momentum and energy conservation principles are applied. From this calculation, the maximum kinetic energy of the electron is 0.8 $$\times$$ 106 eV. The kinetic energy carried by the proton is only the recoil energy.

What is the maximum energy of the anti-neutrino?

A
Zero.
B
Much less than 0.8 $$\times$$ 106 eV.
C
Nearly 0.8 $$\times$$ 106 eV.
D
much larger than 0.8 $$\times$$ 106 eV.
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