Problem 10: A solenoid is created by wrapping a L = 85 m long wire around a hollow tube of diameter D = 2.5 cm. The wire diameter is d= 0.85 mm. The solenoid wire is then connected to a power supply so that a current of I= 4.5 A flows through the wire Randomized Variables L- 85 nm D- 2.5 cm d= 0.85 mm I=4.5 A Part (a) Write an expression for the number of turns. N' in the solenoid. You do not need to take into account the diameter of the wire in this calculation 圖 Part (b) Calculate the number of turns, N. in the solenoid. a Part (c) Write an expression for the length of the solenoid (L2) in terms of the diameter of the hollow tube D, the length of the wire L and the diameter of the wire d. Assume it is constructed by using only 1 layer of loops (note that most solenoids are actually constructed with many layers, to maximize the magnetic field density) Part (d) Calculate the length of the solenoid (L2) in meters. Part (e)_Calculate the magnitude of the magnetic field at the center of the noid ifn tan( cos(0) asinacos0 sin cotan 4 5 6 acotan SiI cos cotanhO 0 Degrees O Radians BACKSPACE CLEAR Submit Hint I give up!

Problem 10: A solenoid is created by wrapping a L = 85 m long wire around a hollow tube of diameter D = 2.5 cm. The wire diameter is d= 0.85 mm. The solenoid wire is then connected to a power supply so that a current of I= 4.5 A flows through the wire Randomized Variables L- 85 nm D- 2.5 cm d= 0.85 mm I=4.5 A Part (a) Write an expression for the number of turns. N' in the solenoid. You do not need to take into account the diameter of the wire in this calculation 圖 Part (b) Calculate the number of turns, N. in the solenoid. a Part (c) Write an expression for the length of the solenoid (L2) in terms of the diameter of the hollow tube D, the length of the wire L and the diameter of the wire d. Assume it is constructed by using only 1 layer of loops (note that most solenoids are actually constructed with many layers, to maximize the magnetic field density) Part (d) Calculate the length of the solenoid (L2) in meters. Part (e)_Calculate the magnitude of the magnetic field at the center of the noid ifn tan( cos(0) asinacos0 sin cotan 4 5 6 acotan SiI cos cotanhO 0 Degrees O Radians BACKSPACE CLEAR Submit Hint I give up!

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Question

Problem 10:
A solenoid is created by wrapping a L = 85 m long wire around a hollow tube of diameter D = 2.5 cm. The wire
diameter is d= 0.85 mm. The solenoid wire is then connected to a power supply so that a current of I= 4.5 A flows through the wire
Randomized Variables
L- 85 nm
D- 2.5 cm
d= 0.85 mm
I=4.5 A
Part (a) Write an expression for the number of turns. N' in the solenoid. You do
not need to take into account the diameter of the wire in this calculation
圖 Part (b) Calculate the number of turns, N. in the solenoid.
a Part (c) Write an expression for the length of the solenoid (L2) in terms of the
diameter of the hollow tube D, the length of the wire L and the diameter of the wire d.
Assume it is constructed by using only 1 layer of loops (note that most solenoids are actually
constructed with many layers, to maximize the magnetic field density)
Part (d) Calculate the length of the solenoid (L2) in meters.
Part (e)_Calculate the magnitude of the magnetic field at the center of the
noid ifn
tan(
cos(0)
asinacos0
sin
cotan
4 5 6
acotan
SiI
cos
cotanhO
0
Degrees O Radians
BACKSPACE
CLEAR
Submit
Hint
I give up!

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Problem 7: A solenoid is created by wrapping a L = 35 m long wire around a hollow tube of diameter D = 4.5 cm. The wire diameter is d = 0.75 mm. The solenoid wire is then connected to a power supply so that a current of I = 4.5 A flows through the wire. Randomized Variables L= 35 m D= 4.5 cm d = 0.75 mm I= 4.5 A Part (a) Write an expression for the number of turns, N, in the solenoid. You do not need to take into account the diameter of the wire in this calculation. N = | 7 8 9. JT НOME d 1^ AL 4 5 6. a h 1 2 3 j k + END - m P VO BАСKSРАСE CLEAR DEL Submit Hint Feedback I give up! Part (b) Calculate the number of turns, N, in the solenoid. Part (c) Write an expression for the length of the solenoid (L2) in terms of the diameter of the hollow tube D, the length of the wire L and the diameter of the wire d. Assume it is constructed by using only 1 layer of loops (note that most solenoids are actually constructed with many layers, to maximize the magnetic field density). Part (d)…
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