Download App
In the previous question, if the current is $i$ and the magnetic field at $D$ has magnitude $B$,
  • A$B=\frac{{{\mu _0}i}}{{2\sqrt 2 \pi }}$
  • B$B$ makes an angle of $45^o$ with the $xy$ plane
  • C$B$ is parallel to the $x$-axis
  • DBoth $(A)$ and $(B)$
Diffcult
art

Download our app
and get started for free

Experience the future of education. Simply download our apps or reach out to us for more information. Let's shape the future of learning together!No signup needed.*
Download App

Similar Questions

  • 1
    A moving coil galvanometer, having a resistance $G$, produces full scale deflection when a current $I_g$ flows through it. This galvanometer can be converted into $(i)$ an ammeter of range $0$ to $I_0 (I_0 > I_g)$ by connecting a shunt resistance $R_A$ to it and $(ii)$ into a voltmeter of range $0$ to $V(V = GI_0)$ by connecting a series resistance $R_V$ to it. Then,
    View Solution
  • 2
    Ionized hydrogen atoms and $\alpha$ -particles with same momenta enters perpendicular to a constant magnetic field $B$. The ratio of their radii of their paths $\mathrm{r}_{\mathrm{H}}: \mathrm{r}_{\alpha}$ will be
    View Solution
  • 3
    The dimension of where $\sqrt {\frac{\mu }{ \in }} $ is permeability $\& \varepsilon$ is permittivity is same as :
    View Solution
  • 4
    In the circuit, shown the galvanometer $G$ of resistance $60\, \Omega$ is shunted by a resistance $r=0.02\, \Omega$. The current through $R$ (in $ohm$) is nearly $1\, A$. The value of resistance $R$ (in $ohm$) is nearly (in $\Omega$)
    View Solution
  • 5
    A straight wire of length $0.5\, metre$ and carrying a current of $1.2\, ampere$ placed in a uniform magnetic field of induction $2\, Tesla$. The magnetic field is perpendicular to the length of the wire. The force on the wire is.......$N$
    View Solution
  • 6
    Two particles $A$ and $B$ of masses ${m_A}$ and ${m_B}$ respectively and having the same charge are moving in a plane. A uniform magnetic field exists perpendicular to this plane. The speeds of the particles are ${v_A}$ and ${v_B}$ respectively, and the trajectories are as shown in the figure. Then
    View Solution
  • 7
    Two wires each carrying a steady current $I$ are shown in four configurations in Column $I$. Some of the resulting effects are described in Column $II$. Match the statements in Column $I$ with the statements in Column $II$ and indicate your answer by darkening appropriate bubbles in the $4 \times 4$ matrix given in the $ORS$.

    Column $I$ Column $II$
    $(A)$ Point $P$ is situated midway between the wires. $Image$ $(p)$ The magnetic fields $(B)$ at $P$ due to the currents in the wires are in the same direction.
    $(B)$ Point $P$ is situated at the mid-point of the line joining the centers of the circular wires, which have same radii. $Image$ $(q)$ The magnetic fields $(B)$ at $P$ due to the currents in the wires are in opposite directions.
    $(C)$ Point $P$ is situated at the mid-point of the line joining the centers of the circular wires, which have same radii. $Image$ $(r)$ There is no magnetic field at $P$.
    $(D)$ Point $P$ is situated at the common center of the wires. $Image$ $(s)$ The wires repel each other.

     

    View Solution
  • 8
    The current sensitivity of a galvanometer can be increased by:

    $(A)$ decreasing the number of turns

    $(B)$ increasing the magnetic field

    $(C)$ decreasing the area of the coil

    $(D)$ decreasing the torsional constant of the spring

    Choose the most appropriate answer from the options given below.

    View Solution
  • 9
    Assertion: To convert a galvanometer into an ammeter a small resistance is connected in parallel with it.

    Reason: The small resistance increases the combined resistance of the combination.

    View Solution
  • 10
    $A$ particle having charge $q$ enters a region of uniform magnetic field $\vec B$ (directed inwards) and is deflected a distance $x$ after travelling a distance $y$. The magnitude of the momentum of the particle is: 
    View Solution