1
JEE Advanced 2017 Paper 1 Offline
MCQ (Single Correct Answer)
+3
-0.75
A charged particle (electron or proton) is introduced at the origin (x=0,y=0,z=0) with a given initial velocity $$\overrightarrow v .$$ A uniform electric field $$\overrightarrow E $$ and a uniform magnetic field $$\overrightarrow B $$ exist everywhere. The velocity $$\overrightarrow v ,$$ electric field $$\overrightarrow E $$ and magnetic field $$\overrightarrow B $$ are given in column $$1,2$$ and $$3,$$ respectively. The quantities $${E_0},{B_0}$$ are positive in magnitude.
| Column 1 | Column 2 | Column 3 | |||
|---|---|---|---|---|---|
| (I) | Electron with $$\overrightarrow v = 2{{{E_0}} \over {{B_0}}}\widehat x$$ | (i) | $$\overrightarrow E = {E_0}\widehat z$$ | (P) | $$\overrightarrow B = - {B_0}\widehat x$$ |
| (II) | Electron with $$\overrightarrow v = {{{E_0}} \over {{B_0}}}\widehat y$$ | (ii) | $$\overrightarrow E = - {E_0}\widehat y$$ | (Q) | $$\overrightarrow B = {B_0}\widehat x$$ |
| (III) | Proton with $$\overrightarrow v = 0$$ | (iii) | $$\overrightarrow E = - {E_0}\widehat x$$ | (R) | $$\overrightarrow B = {B_0}\widehat y$$ |
| (IV) | Proton with $$\overrightarrow v = 2{{{E_0}} \over {{B_0}}}\widehat x$$ | (iv) | $$\overrightarrow E = {E_0}\widehat x$$ | (S) | $$\overrightarrow B = {B_0}\widehat z$$ |
In which case will the particle move in a straight line with constant velocity?
2
JEE Advanced 2017 Paper 1 Offline
MCQ (Single Correct Answer)
+3
-0.75
A charged particle (electron or proton) is introduced at the origin (x=0,y=0,z=0) with a given initial velocity $$\overrightarrow v .$$ A uniform electric field $$\overrightarrow E $$ and a uniform magnetic field $$\overrightarrow B $$ exist everywhere. The velocity $$\overrightarrow v ,$$ electric field $$\overrightarrow E $$ and magnetic field $$\overrightarrow B $$ are given in column $$1,2$$ and $$3,$$ respectively. The quantities $${E_0},{B_0}$$ are positive in magnitude.
| Column 1 | Column 2 | Column 3 | |||
|---|---|---|---|---|---|
| (I) | Electron with $$\overrightarrow v = 2{{{E_0}} \over {{B_0}}}\widehat x$$ | (i) | $$\overrightarrow E = {E_0}\widehat z$$ | (P) | $$\overrightarrow B = - {B_0}\widehat x$$ |
| (II) | Electron with $$\overrightarrow v = {{{E_0}} \over {{B_0}}}\widehat y$$ | (ii) | $$\overrightarrow E = - {E_0}\widehat y$$ | (Q) | $$\overrightarrow B = {B_0}\widehat x$$ |
| (III) | Proton with $$\overrightarrow v = 0$$ | (iii) | $$\overrightarrow E = - {E_0}\widehat x$$ | (R) | $$\overrightarrow B = {B_0}\widehat y$$ |
| (IV) | Proton with $$\overrightarrow v = 2{{{E_0}} \over {{B_0}}}\widehat x$$ | (iv) | $$\overrightarrow E = {E_0}\widehat x$$ | (S) | $$\overrightarrow B = {B_0}\widehat z$$ |
In which case will the particle describe a helical path with axis along the positive $$z$$ direction?
3
JEE Advanced 2017 Paper 1 Offline
MCQ (Single Correct Answer)
+3
-0.75
A charged particle (electron or proton) is introduced at the origin (x=0,y=0,z=0) with a given initial velocity $$\overrightarrow v .$$ A uniform electric field $$\overrightarrow E $$ and a uniform magnetic field $$\overrightarrow B $$ exist everywhere. The velocity $$\overrightarrow v ,$$ electric field $$\overrightarrow E $$ and magnetic field $$\overrightarrow B $$ are given in column $$1,2$$ and $$3,$$ respectively. The quantities $${E_0},{B_0}$$ are positive in magnitude.
| Column 1 | Column 2 | Column 3 | |||
|---|---|---|---|---|---|
| (I) | Electron with $$\overrightarrow v = 2{{{E_0}} \over {{B_0}}}\widehat x$$ | (i) | $$\overrightarrow E = {E_0}\widehat z$$ | (P) | $$\overrightarrow B = - {B_0}\widehat x$$ |
| (II) | Electron with $$\overrightarrow v = {{{E_0}} \over {{B_0}}}\widehat y$$ | (ii) | $$\overrightarrow E = - {E_0}\widehat y$$ | (Q) | $$\overrightarrow B = {B_0}\widehat x$$ |
| (III) | Proton with $$\overrightarrow v = 0$$ | (iii) | $$\overrightarrow E = - {E_0}\widehat x$$ | (R) | $$\overrightarrow B = {B_0}\widehat y$$ |
| (IV) | Proton with $$\overrightarrow v = 2{{{E_0}} \over {{B_0}}}\widehat x$$ | (iv) | $$\overrightarrow E = {E_0}\widehat x$$ | (S) | $$\overrightarrow B = {B_0}\widehat z$$ |
In which case would the particle move in a straight line along the negative direction of $$y$$-axis (i.e., move along $$ - \widehat y$$)?
4
JEE Advanced 2014 Paper 2 Offline
MCQ (Single Correct Answer)
+3
-1
The figure shows a circular loop of radius a with two long parallel wires (numbered 1 and 2) all in the plane of the paper. The distance of each wire from the centre of the loop is d. The loop and the wires are carrying the same current I. The current in the loop is in the counter clockwise direction if seen from above.
When d $$\approx$$ a but wires are not touching the loop, it is found that the net magnetic field on the axis of the loop is zero at a height h above the loop. In that case
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