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3. (25 points) Two parallel, resistance free rails lie in the horizontal plane and are a...
3. (25 points) Two parallel, resistance free rails lie in the horizontal plane and are a distance W apart. The are connected by a resistance free wire at one end. A rod, mass m and length W is placed at rest on the rails at the point defined to be 0. A magnetic field is turned on which points perpendicular to the rails in the direction shown. The strength of the magnetic field increases with time according to B(t) Boat...
This problem explores how a current-carrying wire can be accelerated by a magnetic field.
This problem explores how a current-carrying wire can be accelerated by a magnetic field. You will use the ideas of magnetic flux and the EMF due to change of flux through a loop. Note that there is an involved follow-up part that will be shown once you have found the answer to Part B.A.) A conducting rod is free to slide on two parallel rails with negligible friction. At the right end of the rails, a voltage source of strength...
pls answer looking for question 1-2 20. A straight wire carrying a 3.00-A current is placed...
pls
answer
looking for question 1-2
20. A straight wire carrying a 3.00-A current is placed in a uni- QC form magnetic field of magnitude 0.280 T directed perpen- dicular to the wire. (a) Find the magnitude of the magnetic force on a section of the wire having a length of 14.0 cm. (b) Explain why you can't determine the direction of the mag- netic force from the information given in the problem. velocity nitude the mi field rec wire...
There is a uniform magnetic field of magnitude B, pervading all space, perpendicular to the plane of rod and rails.
There is a uniform magnetic field of magnitude B, pervading all space, perpendicular to the plane of rod and rails. The rod is released from rest, and it is observed that it accelerates to the left. In what direction does the magnetic field point?a) A conducting rod is free to slide on two parallel rails with negligible friction. At the right end of the rails, a voltage source of strength V in series with a resistor of resistance R makes...
An infinitely long wire has a current i, as shown, where io is a known constant....
An infinitely long wire has a current i, as shown, where io is a known constant. Above the wire, a rod of mass m and resistance R slides without friction on resistance-free rails, which are in turn connected to a capacitor of capacitance C. Att = 0, the rod is a distance of L from the capacitor. Batman pushes on the rod to ensure that it moves at a constant velocity Vo. Ignore the self-inductance of the circuit. L VO...
An infinitely long wire has a current i, as shown, where io is a known constant....
An infinitely long wire has a current i, as shown, where io is a known constant. Above the wire, a rod of mass m and resistance R slides without friction on resistance-free rails, which are in turn connected to a capacitor of capacitance C. At t = 0, the rod is a distance of L from the capacitor. Batman pushes on the rod to ensure that it moves at a constant velocity V. Ignore the self-inductance of the circuit. νο...
An infinitely long wire has a current i, as shown, where io is a known constant....
An infinitely long wire has a current i, as shown, where io is a known constant. Above the wire, a rod of mass m and resistance R slides without friction on resistance-free rails, which are in turn connected to a capacitor of capacitance C. At t = 0, the rod is a distance of L from the capacitor. Batman pushes on the rod to ensure that it moves at a constant velocity Vo. Ignore the self-inductance of the circuit. L...
Student's name Student's number 1. A current is produced a magnetic field of magnitude 5 HT...
Student's name Student's number 1. A current is produced a magnetic field of magnitude 5 HT at distance 0.04 m from a long. 2. Two parallel wires lie in the plane of the paper as shown in Fig. 1. Wire 1 carries a current 5 A 3. A condueting rod AB sliding with constant speed v-2 mis on conducting rails in a uniform straight wire? What is the distance from the axis of the wire where the magnitude of the...
A solenoid made of magnet wire (#20 gauge) with 12.3 turns per cm is attached to...
A solenoid made of magnet wire (#20 gauge) with 12.3 turns per cm is attached to a 536 Ω resistor and a 110 V DC source. The diameter of the solenoid is 1.8 cm and its length is 15 cm a. (5 points) What is the self-inductance of the solenoid? b. (5 points) The emf induced in the solenoid depends on a changing current. After a long time the current will stop changing, and the only voltage drop in the...
Kindly note that answer is mentioned in picture containing the question. please check the anseer before...
Kindly note that answer is mentioned in picture
containing the question. please check the anseer before submitting
the solution. Kindly ensure wrong solution is not submitted.
9. A ring of mean radius r and cross-sectional area A is made of a perfectly conducting wire. Inductance L of the ring is so small that inertia of free electrons cannot be neglected in the current building process. The free electron density in the conductor is n, mass of an electron is m...
3. (25 points) Two parallel, resistance free rails lie in the horizontal plane and are a distance W apart. The are connected by a resistance free wire at one end. A rod, mass m and length W is placed at rest on the rails at the point defined to be 0. A magnetic field is turned on which points perpendicular to the rails in the direction shown. The strength of the magnetic field increases with time according to B(t) Boat...
pls
answer
looking for question 1-2
20. A straight wire carrying a 3.00-A current is placed in a uni- QC form magnetic field of magnitude 0.280 T directed perpen- dicular to the wire. (a) Find the magnitude of the magnetic force on a section of the wire having a length of 14.0 cm. (b) Explain why you can't determine the direction of the mag- netic force from the information given in the problem. velocity nitude the mi field rec wire...
An infinitely long wire has a current i, as shown, where io is a known constant. Above the wire, a rod of mass m and resistance R slides without friction on resistance-free rails, which are in turn connected to a capacitor of capacitance C. Att = 0, the rod is a distance of L from the capacitor. Batman pushes on the rod to ensure that it moves at a constant velocity Vo. Ignore the self-inductance of the circuit. L VO...
An infinitely long wire has a current i, as shown, where io is a known constant. Above the wire, a rod of mass m and resistance R slides without friction on resistance-free rails, which are in turn connected to a capacitor of capacitance C. At t = 0, the rod is a distance of L from the capacitor. Batman pushes on the rod to ensure that it moves at a constant velocity V. Ignore the self-inductance of the circuit. νο...
An infinitely long wire has a current i, as shown, where io is a known constant. Above the wire, a rod of mass m and resistance R slides without friction on resistance-free rails, which are in turn connected to a capacitor of capacitance C. At t = 0, the rod is a distance of L from the capacitor. Batman pushes on the rod to ensure that it moves at a constant velocity Vo. Ignore the self-inductance of the circuit. L...
Student's name Student's number 1. A current is produced a magnetic field of magnitude 5 HT at distance 0.04 m from a long. 2. Two parallel wires lie in the plane of the paper as shown in Fig. 1. Wire 1 carries a current 5 A 3. A condueting rod AB sliding with constant speed v-2 mis on conducting rails in a uniform straight wire? What is the distance from the axis of the wire where the magnitude of the...
A solenoid made of magnet wire (#20 gauge) with 12.3 turns per cm is attached to a 536 Ω resistor and a 110 V DC source. The diameter of the solenoid is 1.8 cm and its length is 15 cm a. (5 points) What is the self-inductance of the solenoid? b. (5 points) The emf induced in the solenoid depends on a changing current. After a long time the current will stop changing, and the only voltage drop in the...
Kindly note that answer is mentioned in picture
containing the question. please check the anseer before submitting
the solution. Kindly ensure wrong solution is not submitted.
9. A ring of mean radius r and cross-sectional area A is made of a perfectly conducting wire. Inductance L of the ring is so small that inertia of free electrons cannot be neglected in the current building process. The free electron density in the conductor is n, mass of an electron is m...
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