Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)
An infinite wire carries a current I. An S- shaped conducting rod of two semicircle each of radius r is placed at an angle theta to the wire. The enter of the conductor is at a distance d from the wire. If the rod translates parallel to the wire with a velocity v as shown in figure, calculate the emf induced across the ends OB of the rod.
07
Sep
An infinite wire carries a current I. An S- shaped conducting rod of two semicircle each of radius r is placed at an angle theta to the wire. The enter of the conductor is at a distance d from the wire. If the rod translates parallel to the wire with a velocity v as shown [...]
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A conducting rod of length l slides at constant velocity v on two parallel conducting rails ,
A square loop of side l having resistance R moves with constant velocity v ,
A straight horizontal conductor of length l ,
and mass_ m slides down on two smooth conducting fixed parallel rails ,
set inclined at an angle theta to the horizontal as shown in figure The top end of the bar are connected with a capacitor of capacitance C. The system is placed in a uniform magnetic field ,
Twelve wires of equal lengths are connected in the form of skelton cube which is moving with a velocity v in the direction of magnetic field B.find the emf in each arm of cube. ,
Two long parallel horizontal rails a ,
A copper rod length 19 m is moving with uniform velocity 10 m/s parallel to a long straight wire carring a current of 5 A.the rod is perpendicular to the wire with its ends at distances 0.01 and 0.2 m from it. calculate the emf induced in the rod.
07
Sep
A copper rod length 19 m is moving with uniform velocity 10 m/s parallel to a long straight wire carring a current of 5 A.the rod is perpendicular to the wire with its ends at distances 0.01 and 0.2 m from it. calculate the emf induced in the rod. A conducting rod of length l [...]
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A conducting rod of length l slides at constant velocity v on two parallel conducting rails ,
A square loop of side l having resistance R moves with constant velocity v ,
A straight horizontal conductor of length l ,
and mass_ m slides down on two smooth conducting fixed parallel rails ,
set inclined at an angle theta to the horizontal as shown in figure The top end of the bar are connected with a capacitor of capacitance C. The system is placed in a uniform magnetic field ,
Twelve wires of equal lengths are connected in the form of skelton cube which is moving with a velocity v in the direction of magnetic field B.find the emf in each arm of cube. ,
Two long parallel horizontal rails a ,
A conducting rod (OP) of length L rotates in form of a conical pendulum with an angular velocity ω about a fixed vertical axis passing through its end O. There is a uni- form magnetic field B in vertically downward direction. The rod makes an angle θ with the direction of the magnetic field. Calculate the emf induced across the ends of the rod.
07
Sep
A conducting rod (OP) of length L rotates in form of a conical pendulum with an angular velocity ω about a fixed vertical axis passing through its end O. There is a uni- form magnetic field B in vertically downward direction. The rod makes an angle θ with the direction of the magnetic field. Calculate [...]
Tags:
A conducting rod of length l slides at constant velocity v on two parallel conducting rails ,
A square loop of side l having resistance R moves with constant velocity v ,
A straight horizontal conductor of length l ,
and mass_ m slides down on two smooth conducting fixed parallel rails ,
set inclined at an angle theta to the horizontal as shown in figure The top end of the bar are connected with a capacitor of capacitance C. The system is placed in a uniform magnetic field ,
Twelve wires of equal lengths are connected in the form of skelton cube which is moving with a velocity v in the direction of magnetic field B.find the emf in each arm of cube. ,
Two long parallel horizontal rails a ,
The following equations represent transverse waves: y1 = A cos (kx – omega t ); y2 = A cos (kx + omega t) Identify the combination of the waves which will produce (1) standing waves and (2) a wave travelling in a direction making an angle 45
06
Sep
The following equations represent transverse waves: y1 = A cos (kx – omega t ); y2 = A cos (kx + omega t) Identify the combination of the waves which will produce (1) standing waves and (2) a wave travelling in a direction making an angle 45 A closed organ pipe of length l0 is [...]
A closed organ pipe of length l0 is resonating in 5th harmonic mode with rod clamped at two points l and 3l from one end. If the length of the rod is 4l and it is vibrating in first overtone, find the length of the rod.
06
Sep
A closed organ pipe of length l0 is resonating in 5th harmonic mode with rod clamped at two points l and 3l from one end. If the length of the rod is 4l and it is vibrating in first overtone, find the length of the rod. A closed organ pipe of length l0 is resonating [...]
A string is stretched by a block going over a pulley. The string vibrates in its fifth harmonic in unison with a particular tuning fork. When a beaker containing a liquid of density rho is brought under the block so that the block is completely
06
Sep
A string is stretched by a block going over a pulley. The string vibrates in its fifth harmonic in unison with a particular tuning fork. When a beaker containing a liquid of density rho is brought under the block so that the block is completely A rod of nickel of length l is clamped at [...]
A rod of nickel of length l is clamped at its midpoint. The rod is stuck and vibrations are set up in the rod. Find the general expression for the frequency of the longitudinal vibrations of the
06
Sep
A rod of nickel of length l is clamped at its midpoint. The rod is stuck and vibrations are set up in the rod. Find the general expression for the frequency of the longitudinal vibrations of the A rod of nickel of length l is clamped at its midpoint. The rod is stuck and vibrations [...]
A sonometer wire under tension of 128 N vibrates in resonance with a tuning fork. The vibrating portion of sonometer wire has length 20 cm and mass 1g. The vibrating tuning fork is now moved away from the vibrating
06
Sep
A sonometer wire under tension of 128 N vibrates in resonance with a tuning fork. The vibrating portion of sonometer wire has length 20 cm and mass 1g. The vibrating tuning fork is now moved away from the vibrating find the lengths of the pipes. The first overtone of an open organ pipe beats with [...]
Two narrow cylinderical pipes A and B have the same length. Pipe A is open at both ends and is filled with a monoatomic gas of molar mass Ma. Pipe B is open at one end and closed at the other end and is filled with a diatomic gas of molar mass
06
Sep
Two narrow cylinderical pipes A and B have the same length. Pipe A is open at both ends and is filled with a monoatomic gas of molar mass Ma. Pipe B is open at one end and closed at the other end and is filled with a diatomic gas of molar mass find the lengths [...]
AB is a cylinder of length 1.0 m fitted with a thin flexible diaphragm C at the middle and two others thin flexible diaphragms A and B at the ends. The portions AC and Bc contains hydrogen and oxygen gases, respectively.
06
Sep
AB is a cylinder of length 1.0 m fitted with a thin flexible diaphragm C at the middle and two others thin flexible diaphragms A and B at the ends. The portions AC and Bc contains hydrogen and oxygen gases, respectively. find the lengths of the pipes. The first overtone of an open organ pipe [...]