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has a radius of that is Shown in the figure below is...
Shown in the figure below is a long hollow wire. The wire has an inner radius...
Shown in the figure below is a long hollow wire. The wire has an inner radius of a, an outer radius of b, and is carrying a current of I. Region I Region II Region III (r>b) (b>r>a) (r<a) infinite length b) I Infinite Hollow Wire carrying Current I Use Ampere's Law to determine the magnetic field in each of these three regions as a function of r: • Region 1 (nb): • Region II (acreb): • What is the...
Shown in the figure below is a long hollow wire. The wire has an inner radius...
Shown in the figure below is a long hollow wire. The wire has an inner radius of a, an outer radius of b, and is carrying a current of I. Region I Region II Region III (r>b) (b>r>a) (r<a) infinite length Infinite Hollow Wire carrying Current Use Ampere's Law to determine the magnetic field in each of these three regions as a function of r: • Region 1 (b): • Region II (a<r<b): o What is the length of the...
Shown in the figure below is a toreid. You can think of a toroid as a...
Shown in the figure below is a toreid. You can think of a toroid as a long solenoid that has been bent into the shape of a circle. Your toroid has loops, an inner radius of a, an outer radius of b, and is carrying a current of I. Region I: Outside (r>b) B Regione Insiderca) Region It: Middle (arch) Use Ampere's Law to determine the magnetic field in each of these three regions as a function of: Region Region...
Will rate! Shown in the figure below is a long solenoid. Your solenoid has N loops,...
Will rate!
Shown in the figure below is a long solenoid. Your solenoid has N loops, a length of L, and is carrying a current of I. We shall use the "long" approximation for which the field outside the solenoid is very very small compared to the field inside the solenoid. Use an Ampere path that extends the full length of the solenoid and closes outside the solenoid. N turns in the coil ത L A "Long' Solenoid (i.e. length...
Shown in the figure below is a long solenoid. Your solenoid has N loops, a length...
Shown in the figure below is a long solenoid. Your solenoid has N loops, a length of L, and is carrying a current of I. We shall use the "long" approximation for which the field outside the solenoid is very very small compared to the field inside the solenoid. Use an Ampere path that extends the full length of the solenoid and closes outside the solenoid. N turns in the coil www00000000000) L A "Long" Solenoid (i.e. length >> diameter)...
The figure shows a stationary conducting loop adjacent to a horizontal current-carrying wire. For which of...
The figure shows a stationary conducting loop adjacent to a horizontal current-carrying wire. For which of the following conditions will a counter- clockwise induced current circulate in the stationary loop? Stationary conducting loop O Counter- clockwise induced current - Current-carrying wire The current in the horizontal wire flows to the right and its value is increasing. The current in the horizontal wire flows to the right and its value is constant. The current in the horizontal wire flows to the...
t 6 [3.33/20 points) DETAILS PREVIOUS ANSWERS MY NOTES ASK YOUR TEACHER Shown in the figure...
t
6 [3.33/20 points) DETAILS PREVIOUS ANSWERS MY NOTES ASK YOUR TEACHER Shown in the figure below is a toroid. You can think of a toroid as a long solenoid that has been bent into the shape of a circle. Your toroid has N loops, an inner radius of a, an outer radius of b, and is carrying a current of I. Region I: Outside (r>b) 3 Region Ill: r .-11 Inside (rca) Region II: Middle (a<r<b) Use Ampere's Law...
Activity 24B-1 1.Consider a current-carrying wire loop oriented in the plane of the page, as shown...
Activity 24B-1 1.Consider a current-carrying wire loop oriented in the plane of the page, as shown in the figures below. The current in the loop flows in a counter-clockwise direction, as shown. Inside the wire loop, draw the direction of the magnetic field created by this current. Briefly explain how you determined this direction. a. b. Inside the loop, the magnetic field created by the current in the wire loop points into the page. Draw the direction of the current...
A single current-carrying circular loop of radius R is placed next to a long, straight wire,...
A single current-carrying circular loop of radius
R is placed next to a long, straight wire, as
shown in the
figure. The current I in the wire flows to the
right and the a current I flows counter-clockwise
on the loop. What is the net magnetic field produce at the center
of the loop?
I R/2
PLEASE ANSWER ALL QUESTIONS, THANK YOU! The figure shows an end view of two wires carrying...
PLEASE
ANSWER ALL QUESTIONS, THANK YOU!
The figure shows an end view of two wires carrying current. means that the direction of the current points into the page and means out of the page. What is the direction of the force that wire 1 exerts on wire 2? Refer to the figure in question 1. Is the direction of the magnetic field around wire one clockwise or counter - clockwise? Two wires carrying equal currents exert a force F0 on...
Shown in the figure below is a long hollow wire. The wire has an inner radius of a, an outer radius of b, and is carrying a current of I. Region I Region II Region III (r>b) (b>r>a) (r<a) infinite length b) I Infinite Hollow Wire carrying Current I Use Ampere's Law to determine the magnetic field in each of these three regions as a function of r: • Region 1 (nb): • Region II (acreb): • What is the...
Shown in the figure below is a long hollow wire. The wire has an inner radius of a, an outer radius of b, and is carrying a current of I. Region I Region II Region III (r>b) (b>r>a) (r<a) infinite length Infinite Hollow Wire carrying Current Use Ampere's Law to determine the magnetic field in each of these three regions as a function of r: • Region 1 (b): • Region II (a<r<b): o What is the length of the...
Shown in the figure below is a toreid. You can think of a toroid as a long solenoid that has been bent into the shape of a circle. Your toroid has loops, an inner radius of a, an outer radius of b, and is carrying a current of I. Region I: Outside (r>b) B Regione Insiderca) Region It: Middle (arch) Use Ampere's Law to determine the magnetic field in each of these three regions as a function of: Region Region...
Will rate!
Shown in the figure below is a long solenoid. Your solenoid has N loops, a length of L, and is carrying a current of I. We shall use the "long" approximation for which the field outside the solenoid is very very small compared to the field inside the solenoid. Use an Ampere path that extends the full length of the solenoid and closes outside the solenoid. N turns in the coil ത L A "Long' Solenoid (i.e. length...
Shown in the figure below is a long solenoid. Your solenoid has N loops, a length of L, and is carrying a current of I. We shall use the "long" approximation for which the field outside the solenoid is very very small compared to the field inside the solenoid. Use an Ampere path that extends the full length of the solenoid and closes outside the solenoid. N turns in the coil www00000000000) L A "Long" Solenoid (i.e. length >> diameter)...
The figure shows a stationary conducting loop adjacent to a horizontal current-carrying wire. For which of the following conditions will a counter- clockwise induced current circulate in the stationary loop? Stationary conducting loop O Counter- clockwise induced current - Current-carrying wire The current in the horizontal wire flows to the right and its value is increasing. The current in the horizontal wire flows to the right and its value is constant. The current in the horizontal wire flows to the...
t
6 [3.33/20 points) DETAILS PREVIOUS ANSWERS MY NOTES ASK YOUR TEACHER Shown in the figure below is a toroid. You can think of a toroid as a long solenoid that has been bent into the shape of a circle. Your toroid has N loops, an inner radius of a, an outer radius of b, and is carrying a current of I. Region I: Outside (r>b) 3 Region Ill: r .-11 Inside (rca) Region II: Middle (a<r<b) Use Ampere's Law...
Activity 24B-1 1.Consider a current-carrying wire loop oriented in the plane of the page, as shown in the figures below. The current in the loop flows in a counter-clockwise direction, as shown. Inside the wire loop, draw the direction of the magnetic field created by this current. Briefly explain how you determined this direction. a. b. Inside the loop, the magnetic field created by the current in the wire loop points into the page. Draw the direction of the current...
A single current-carrying circular loop of radius
R is placed next to a long, straight wire, as
shown in the
figure. The current I in the wire flows to the
right and the a current I flows counter-clockwise
on the loop. What is the net magnetic field produce at the center
of the loop?
I R/2
PLEASE
ANSWER ALL QUESTIONS, THANK YOU!
The figure shows an end view of two wires carrying current. means that the direction of the current points into the page and means out of the page. What is the direction of the force that wire 1 exerts on wire 2? Refer to the figure in question 1. Is the direction of the magnetic field around wire one clockwise or counter - clockwise? Two wires carrying equal currents exert a force F0 on...
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