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Suppose you want to produce a strong magnetic field that is constant in magnitude and direction...
Problem 20.40 You want to produce a magnetic field of magnitude 5.50 x10^-4T at a distance...
Problem 20.40 You want to produce a magnetic field of magnitude 5.50 x10^-4T at a distance of 4.0 x 10^-2m from a long, straight wire. Part A What current is required to produce this field? Part B With the current found in part A, how strong is the magnetic field 8.00cm from the wire's center?
Short answer questions: a. The magnitude of the magnetic field at a distance R from a...
Short answer questions: a. The magnitude of the magnetic field at a distance R from a long straight wire is equal to B. At what distance will the magnitude of the magnetic field be equal to 3B? b. Two long parallel wires carry equal but opposite currents. Are there any points in space where the total magnetic field is equal to zero? If so, where? If not, why not? c. A simple loop circuit contains two sources, a resistive wire,...
A. What current is needed if I want to produce a magnetic field of 0.5mT at...
A. What current is needed if I want to produce a magnetic field of 0.5mT at 50cm away from a straight wire? B. What is the magnetic field of a solenoid with a 500mA current and 200 turns per meter?
Iwire The magnetic field for a long wire is В — B = 2π r =...
Iwire The magnetic field for a long wire is В — B = 2π r = distance from wire, I = current d through wire, Ho = 4 n x 10~-7 Tm Iloop A Current-carrying wire in magnetic field B the magnetic force on the wire is I = current, L = vector, magnitude is length of the wire, direction of the curent The magnetic forces between wires is one way to measure currents without having to place an ammeter...
What is the magnitude of the magnetic field of a loop carrying constant current in the...
What is the magnitude of the magnetic field of a loop carrying
constant current in the center of the loop?
B =
Magnetic field field due to a loop of current r=(x+ + y 12 dBy Imagine a thin current loop of radius R as in the figure above carrying a constant current I in the direction out of the page (the loop in the figure is turned slightly for a better view). What is the magnitude of the magnetic...
Magnetic Field due to a Current (a) What is the dimension of n in the expression...
Magnetic Field due to a Current (a) What is the dimension of n in the expression for the magnetic field B in a solenoid? (b) Suppose you want to wind a solenoid to create a 100 G field in the interior of a cylinder 10 cm long with a radius 0.5 cm. The wire can carry 500 mA current. How will you do it? (c) What is the inductance of your solenoid in Henrys?
You have designed and constructed a solenoid to produce a magnetic field equal in magnitude to...
You have designed and constructed a solenoid to produce a magnetic field equal in magnitude to that of the Earth (5.0 10-5 T). If your solenoid has 500 turns and is 39 cm long, determine the current you must use in order to obtain a magnetic field of the desired magnitude. In mA units.
a) Two long straight wires are carrying current out of the page and into the page...
a) Two long straight wires are carrying current out of the page and into the page as shown Draw the direction of the force exerted on wire 2. X 1 b) A rectangular loop of wire with current flowing through it is sitting in an external magnetic field as shown below (the magnetic field in the dashed region is caused by magnets that are not shown in the diagram). What direction will the loop rotate? Answer by saying which side...
10. A rectangular wire carrying a current is placed in a magnetic field. The magnitude of...
10. A rectangular wire carrying a current is placed in a magnetic field. The magnitude of the torque the wire feels does not depend on which of the following statements: to. The magnitude of the current in the wire b. The direction of the current in the wire c. The length of the “loop” sides of the wire d. The area of the loop le.The orientation of the "loop"
Problem 20.40 You want to produce a magnetic field of magnitude 5.50 x10^-4T at a distance of 4.0 x 10^-2m from a long, straight wire. Part A What current is required to produce this field? Part B With the current found in part A, how strong is the magnetic field 8.00cm from the wire's center?
Short answer questions: a. The magnitude of the magnetic field at a distance R from a long straight wire is equal to B. At what distance will the magnitude of the magnetic field be equal to 3B? b. Two long parallel wires carry equal but opposite currents. Are there any points in space where the total magnetic field is equal to zero? If so, where? If not, why not? c. A simple loop circuit contains two sources, a resistive wire,...
Iwire The magnetic field for a long wire is В — B = 2π r = distance from wire, I = current d through wire, Ho = 4 n x 10~-7 Tm Iloop A Current-carrying wire in magnetic field B the magnetic force on the wire is I = current, L = vector, magnitude is length of the wire, direction of the curent The magnetic forces between wires is one way to measure currents without having to place an ammeter...
What is the magnitude of the magnetic field of a loop carrying
constant current in the center of the loop?
B =
Magnetic field field due to a loop of current r=(x+ + y 12 dBy Imagine a thin current loop of radius R as in the figure above carrying a constant current I in the direction out of the page (the loop in the figure is turned slightly for a better view). What is the magnitude of the magnetic...
a) Two long straight wires are carrying current out of the page and into the page as shown Draw the direction of the force exerted on wire 2. X 1 b) A rectangular loop of wire with current flowing through it is sitting in an external magnetic field as shown below (the magnetic field in the dashed region is caused by magnets that are not shown in the diagram). What direction will the loop rotate? Answer by saying which side...
10. A rectangular wire carrying a current is placed in a magnetic field. The magnitude of the torque the wire feels does not depend on which of the following statements: to. The magnitude of the current in the wire b. The direction of the current in the wire c. The length of the “loop” sides of the wire d. The area of the loop le.The orientation of the "loop"
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