it opens into a circle. Also calculate the tension developed in the wire if the current is 1.57 A.

Sahay Sir > Question Answers > it opens into a circle. Also calculate the tension developed in the wire if the current is 1.57 A.
A particle having mass m and charge q is released from the origin in a region in which electric field and magnetic field are given by B = −B0J and E−E0K. Find the speed of the particle as a function of its z-coordinate.
05
Sep
A particle having mass m and charge q is released from the origin in a region in which electric field and magnetic field are given by B = −B0J and E−E0K. Find the speed of the particle as a function of its z-coordinate. A loop of flexible conducting wire of length 0.5 m lies in [...]
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Tags: A loop of flexible conducting wire of length 0.5 m lies in a magnetic field of 1.0 T perpendicular to the plane of the loop. Show that when a current as shown in Fig. 1.112 is passed through the loop , it opens into a circle. Also calculate the tension developed in the wire if the current is 1.57 A. ,
A small circular coil with a mass of m consists of N turns of fine wire and carries a current of I. The coil is located in a uniform magnetic field of B with the coil axis orignally parallel to the field direction. a. What is the period of small angle oscillations of the coil axis around its equilibrium position, assuming no friction and no mechanical force? b. If the coil is rotated through an angle of θ from its equilibrium position and then
05
Sep
A small circular coil with a mass of m consists of N turns of fine wire and carries a current of I. The coil is located in a uniform magnetic field of B with the coil axis orignally parallel to the field direction. a. What is the period of small angle oscillations of the coil [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A loop of flexible conducting wire of length 0.5 m lies in a magnetic field of 1.0 T perpendicular to the plane of the loop. Show that when a current as shown in Fig. 1.112 is passed through the loop , it opens into a circle. Also calculate the tension developed in the wire if the current is 1.57 A. ,
An electron accelerated by a potential difference V=3 volt first enters into a uniform electric field of a parallel plate capacitor whose plates extend over a length l=6cm in the direction of initial velocity. The electric field is normal to the direction of initial velocity and its strength varies with time as E=αt, where α=3600Vm^−1s^−1. Then the electron enters into a uniform magnetic field of induction
05
Sep
An electron accelerated by a potential difference V=3 volt first enters into a uniform electric field of a parallel plate capacitor whose plates extend over a length l=6cm in the direction of initial velocity. The electric field is normal to the direction of initial velocity and its strength varies with time as E=αt, where α=3600Vm^−1s^−1. [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A loop of flexible conducting wire of length 0.5 m lies in a magnetic field of 1.0 T perpendicular to the plane of the loop. Show that when a current as shown in Fig. 1.112 is passed through the loop , it opens into a circle. Also calculate the tension developed in the wire if the current is 1.57 A. ,
A positively charged particle having charge q1=1C and mass m1=40gm is revolving along a circle of radius R=40cm with velocity v1=5ms−1 in a uniform magnetic field with center of circle at origin O of a three-dimensional system. At t=0, the particle was at (0, 0.4m, 0) and velocity was directed along positive x direction. Another particle having charge q2=1C and mass m2=10g moving uniformly parallel to positive z-direction with velocity
05
Sep
A positively charged particle having charge q1=1C and mass m1=40gm is revolving along a circle of radius R=40cm with velocity v1=5ms−1 in a uniform magnetic field with center of circle at origin O of a three-dimensional system. At t=0, the particle was at (0, 0.4m, 0) and velocity was directed along positive x direction. Another [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A loop of flexible conducting wire of length 0.5 m lies in a magnetic field of 1.0 T perpendicular to the plane of the loop. Show that when a current as shown in Fig. 1.112 is passed through the loop , it opens into a circle. Also calculate the tension developed in the wire if the current is 1.57 A. ,
A loop of flexible conducting wire of length 0.5 m lies in a magnetic field of 1.0 T perpendicular to the plane of the loop. Show that when a current as shown in Fig. 1.112 is passed through the loop, it opens into a circle. Also calculate the tension developed in the wire if the current is 1.57 A.
05
Sep
A loop of flexible conducting wire of length 0.5 m lies in a magnetic field of 1.0 T perpendicular to the plane of the loop. Show that when a current as shown in Fig. 1.112 is passed through the loop, it opens into a circle. Also calculate the tension developed in the wire if the [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A loop of flexible conducting wire of length 0.5 m lies in a magnetic field of 1.0 T perpendicular to the plane of the loop. Show that when a current as shown in Fig. 1.112 is passed through the loop , it opens into a circle. Also calculate the tension developed in the wire if the current is 1.57 A. ,