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A square loop of wire with resistance R is moved at constant speed v across a uniform magnet field confined to a square region whose sides are twice the lengths of those of the square loop (a) Sketch a graph of the external forces F needed to move the loop at constant speed, as a function of to sketch a graph of the external force F need tho coordinate x, fromx=−2L to x=+2L. (The coordinate x is measured from the centre of the oignetic field region to the centre of the loop. It is negative when the centre of the loop is to the left, of the centre of the magnetic field region. Take positive force to be to the right). (b) Sketch a graph of the induced current in the loop as a function of x. Take counterclockwise currents to be positive.
19
Oct
A square loop of wire with resistance R is moved at constant speed v across a uniform magnet field confined to a square region whose sides are twice the lengths of those of the square loop (a) Sketch a graph of the external forces F needed to move the loop at constant speed, as a [...]
The wire as shown in figure is bent in the shape of a tent, with θ = 60∘ and L = 1.50 m and is placed in a uniform magnetic field of magnitude 0.300T perpendicular to the table rigid but hinged at points a and b. If the tent is flattened out on the table in 0.100 sec, what is the average induced emf in the wire during this time ?
19
Oct
The wire as shown in figure is bent in the shape of a tent, with θ = 60∘ and L = 1.50 m and is placed in a uniform magnetic field of magnitude 0.300T perpendicular to the table rigid but hinged at points a and b. If the tent is flattened out on the table [...]
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so that the magnet gets demagnetized when inside the solenoid ,
The coercitivity of a small magnet where the ferromagnet gets demagnetized is 3× 10^3 A/m. The current required to be passed in a solenoid of length 10cm and number of turns 100 ,
The wire as shown in figure is bent in the shape of a tent ,
Using Lenz's law ,
Figure shows a coil placed in a decreasing magnetic field applied perpendicular to the plane of the coil. The magnetic field is decreasing at a rate of 10 T/s. Find out current in magnitude and direction of current.
19
Oct
Figure shows a coil placed in a decreasing magnetic field applied perpendicular to the plane of the coil. The magnetic field is decreasing at a rate of 10 T/s. Find out current in magnitude and direction of current. is so that the magnet gets demagnetized when inside the solenoid The coercitivity of a small magnet [...]
A carboard tube is wrapped with two winding of insulated wire wound in opposite directions as shown in Fig. 3.24. Terminal aandb of winding A may be connected to a battery through a reversing switch. State whether the induced current in the resistor R from left to right or from right to left in the following cicumstances.
19
Oct
A carboard tube is wrapped with two winding of insulated wire wound in opposite directions as shown in Fig. 3.24. Terminal aandb of winding A may be connected to a battery through a reversing switch. State whether the induced current in the resistor R from left to right or from right to left in the [...]
Using Lenz’s law, determine the direction of the current in resistor ab in Fig. 3.23 when (a) switch S is opended after having been closed for several minutes. (b) coil B is brought closer to coil A with the swich closed. ltbr. ( c) the resistance of R is decreased while the switch remains closed
19
Oct
Using Lenz’s law, determine the direction of the current in resistor ab in Fig. 3.23 when (a) switch S is opended after having been closed for several minutes. (b) coil B is brought closer to coil A with the swich closed. ltbr. ( c) the resistance of R is decreased while the switch remains closed [...]
A conducting ring is placed near a solenoid as shown in Fig.3.21. Find the direction of the induced current in the ring. (a) At the instant the switch in the circuit containing the solenoid is closed. (b) After the switch has been closed for a long time. (c) At the instant the switch is opened.
19
Oct
A conducting ring is placed near a solenoid as shown in Fig.3.21. Find the direction of the induced current in the ring. (a) At the instant the switch in the circuit containing the solenoid is closed. (b) After the switch has been closed for a long time. (c) At the instant the switch is opened. [...]
A cube of edge length l = 2.50 cm is positioned as shown in Fig. 3.20. A uniform magnetic field given by B = ( 5.00 iˆ+ 4.00 jˆ+ 3.00 kˆ)T exists throughout the region. (a) Calculate the flux through the shaded face. (b) What is the total flux through the six faces ?
19
Oct
A cube of edge length l = 2.50 cm is positioned as shown in Fig. 3.20. A uniform magnetic field given by B = ( 5.00 iˆ+ 4.00 jˆ+ 3.00 kˆ)T exists throughout the region. (a) Calculate the flux through the shaded face. (b) What is the total flux through the six faces ? is [...]
The coercitivity of a small magnet where the ferromagnet gets demagnetized is 3× 10^3 A/m. The current required to be passed in a solenoid of length 10cm and number of turns 100, so that the magnet gets demagnetized when inside the solenoid , is :
19
Oct
The coercitivity of a small magnet where the ferromagnet gets demagnetized is 3× 10^3 A/m. The current required to be passed in a solenoid of length 10cm and number of turns 100, so that the magnet gets demagnetized when inside the solenoid , is : is so that the magnet gets demagnetized when inside the [...]
A horizontal platform is rotating with uniform angular velocity around the vertical axis passing through it centre. At some instant of time a viscous fluid of mass m is dropped at the centre and is allowed to spread out and finally fall. The angular velocity during this period
17
Oct
A horizontal platform is rotating with uniform angular velocity around the vertical axis passing through it centre. At some instant of time a viscous fluid of mass m is dropped at the centre and is allowed to spread out and finally fall. The angular velocity during this period is The moment of inertia of a [...]
A rod of length 1.4m and negligible mass has two masses of 0.3kg and 0.7kg tied to its two ends. Find the location of the point on this rod where the rotational energy is minimum where the rod is rotated about that point.
17
Oct
A rod of length 1.4m and negligible mass has two masses of 0.3kg and 0.7kg tied to its two ends. Find the location of the point on this rod where the rotational energy is minimum where the rod is rotated about that point. is The moment of inertia of a disc of mass M and [...]