Solenoids are cylindrical coils of wire that create an internal magnetic field when carrying an electric...
Solenoids are cylindrical coils of wire that create an internal magnetic field when carrying an electric current - see section 12.1 of the textbook. A solenoid 86.0 cm long has a radius of 3.00 cm and a winding of 1900 turns; it carries a current of 3.60 A.
(a) Calculate the magnitude of the magnetic field inside the solenoid in mT.
(b) Calculate the magnetic field outside the solenoid in T. (We can treat this as an ideal solenoid, since it has a small radius and long length.)
(c) An electron is shot with a velocity 4.0 x 106 m/s along the axis of the solenoid. What is the magnitude of the magnetic force in N on the electron?
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Solenoids are cylindrical coils of wire that create an internal
magnetic field when carrying an electric...
Helmholtz coils are frequently used in experiments because they create a uniform magnetic field about their...
Helmholtz coils are frequently used in experiments because they
create a uniform magnetic field about their axial direction. For
example, they are traditionally used in the experiment for the
measurement of the charge to mass ration of the electron. Helmholts
coils are two coils separated by a distance equal to their radius
and also carry equal currents in the same direction, as shown in
the figure on the right. Supposed the radius of the coil is 15.00
cm, each coil...
Chapter 29, Problem 050 A solenoid that is 106 cm long has a radius of 2.18...
Chapter 29, Problem 050 A solenoid that is 106 cm long has a radius of 2.18 cm and a winding of 989 turns; it carries a current of 3.78 A. Calculate the magnitude of the magnetic field inside the solenoid. Number the tolerance is +/-7% Units SHOW HINT
Chapter 28 - Sources of Magnetic Field: Current-carrying Wires, Ampere's Law, Biot-Savart Law, Ferromagnetism, Solenoids, and...
Chapter 28 - Sources of Magnetic Field: Current-carrying Wires, Ampere's Law, Biot-Savart Law, Ferromagnetism, Solenoids, and Tore roblem 28.29 A 170 m-long copper wire, 2.40 mm in diameter including insulation is tightly wrapped in a single layer with adjacent coils touching, to form a solenoid of diameter 2.50 cm (outer edge). Part A What is the length of the solenoid? 90 AED - O ? Submit Request Answer Part B What is the field at the center when the current...
Example # 24.1: Find the magnetic field 5 cm from a long wire carrying 12 A....
Example # 24.1: Find the magnetic field 5 cm from a long wire carrying 12 A. Example # 24.2: Find the magnetic field inside a solenoid with 15,000 turns that is 20 cm long and carries 6.8 A of current. Example # 24.3: Find the force on a proton moving to the right (horizontally) at 330,000 m/s where there is an upward magnetic field of 0.0058 T. Example # 24.4: Find the speed of electrons moving horizontally in the same...
Helmholtz coils are frequently used in experiments because they create a uniform magnetic field about their...
Helmholtz coils are frequently used in experiments because they
create a uniform magnetic field about their axial
direction.
Ma Helmholtz coils are frequently used in experiments because they create a uniform magnetic field about their axial direction. For example, they are traditionally used in the experiment for the measurement of the charge to mass ratio of the electron. Helmholtz coils are two coils separated by a distance equal to their radius and also carry equal currents in the same direction,...
A solenoid that is 75.9 cm long has a radius of 2.86 cm and a winding...
A solenoid that is 75.9 cm long has a radius of 2.86 cm and a winding of 1220 turns; it carries a current of 4.53 A. Calculate the magnitude of the magnetic field inside the solenoid.
A solenoid that is 141 cm long has a radius of 1.61 cm and a winding...
A solenoid that is 141 cm long has a radius of 1.61 cm and a winding of 972 turns; it carries a current of 5.30 A. Calculate the magnitude of the magnetic field inside the solenoid.
A solenoid that is 83.8 cm long has a radius of 2.84 cm and a winding...
A solenoid that is 83.8 cm long has a radius of 2.84 cm and a winding of 1130 turns; it carries a current of 3.37 A. Calculate the magnitude of the magnetic field inside the solenoid.
Two circular coils of current-carrying wire have the same magnetic moment. The first coil has a...
Two circular coils of current-carrying wire have the same magnetic moment. The first coil has a radius of 0.092 m, has 144 turns, and carries a current of 4.5 A. The second coil has 166 turns and carries a current of 9.3 A. What is the radius of the second coil?
A21921 Section B 4. (a) Sketch the lines of magnetic flux B inside and outside a long, curent- carrying solenoid, labelling a clearly the direction of B relative to the direction of current flow....
A21921 Section B 4. (a) Sketch the lines of magnetic flux B inside and outside a long, curent- carrying solenoid, labelling a clearly the direction of B relative to the direction of current flow. all of the important tures, and indicating Stating any approximations that you make, show that the axial magnetic [5 fux density, B, deep inside a long solenoid of length 1, total number of turns N, carrying a current 1, is approximately Two solenoids are arranged as...
Helmholtz coils are frequently used in experiments because they
create a uniform magnetic field about their axial direction. For
example, they are traditionally used in the experiment for the
measurement of the charge to mass ration of the electron. Helmholts
coils are two coils separated by a distance equal to their radius
and also carry equal currents in the same direction, as shown in
the figure on the right. Supposed the radius of the coil is 15.00
cm, each coil...
Chapter 29, Problem 050 A solenoid that is 106 cm long has a radius of 2.18 cm and a winding of 989 turns; it carries a current of 3.78 A. Calculate the magnitude of the magnetic field inside the solenoid. Number the tolerance is +/-7% Units SHOW HINT
Chapter 28 - Sources of Magnetic Field: Current-carrying Wires, Ampere's Law, Biot-Savart Law, Ferromagnetism, Solenoids, and Tore roblem 28.29 A 170 m-long copper wire, 2.40 mm in diameter including insulation is tightly wrapped in a single layer with adjacent coils touching, to form a solenoid of diameter 2.50 cm (outer edge). Part A What is the length of the solenoid? 90 AED - O ? Submit Request Answer Part B What is the field at the center when the current...
Example # 24.1: Find the magnetic field 5 cm from a long wire carrying 12 A. Example # 24.2: Find the magnetic field inside a solenoid with 15,000 turns that is 20 cm long and carries 6.8 A of current. Example # 24.3: Find the force on a proton moving to the right (horizontally) at 330,000 m/s where there is an upward magnetic field of 0.0058 T. Example # 24.4: Find the speed of electrons moving horizontally in the same...
Helmholtz coils are frequently used in experiments because they
create a uniform magnetic field about their axial
direction.
Ma Helmholtz coils are frequently used in experiments because they create a uniform magnetic field about their axial direction. For example, they are traditionally used in the experiment for the measurement of the charge to mass ratio of the electron. Helmholtz coils are two coils separated by a distance equal to their radius and also carry equal currents in the same direction,...
A21921 Section B 4. (a) Sketch the lines of magnetic flux B inside and outside a long, curent- carrying solenoid, labelling a clearly the direction of B relative to the direction of current flow. all of the important tures, and indicating Stating any approximations that you make, show that the axial magnetic [5 fux density, B, deep inside a long solenoid of length 1, total number of turns N, carrying a current 1, is approximately Two solenoids are arranged as...
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