Three charged metal disks are arranged as shown (cutaway view). The disks are held apart by insulating supports not shown in the diagram. Each disk has a 12.4 m (this is the area surface of the disk). Use the 8.85e-12 C/(N-m") for ro-The charge Q-7e-8 coulombs, and the charge Qde-7 coulombs. 0.02 0.02 0.02 mm mm 17 mm 4 mm Disk Disk 2 Disk 3 What is the magnitude of the electric field in the region between disks 1 and 27 IẾ - 3292 What is the direction of the electric field between disks 1 and 27 x v V/m Which of the following statements are true? Choose all that apply. a ve - VA -0 O ve - VA--((Q/2.4"(0.003) volts O Along e path from A to Eal

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Chapter1: Units, Trigonometry. And Vectors
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Three charged metal disks are arranged as shown (cutaway view). The disks are held apart by insulating supports not shown in the diagram. Each disk has an area of 2.4 m2 (this is the area of one flat surface of the disk). Use the value 8.85e-12 c/(N-m2) for eg.The charge Q1 = 7e-8 coulombs, and the
charge Q2 - 4e-7 coulombs.
0.02
0.02
0.02
mm
mm 1.7 mm mm
---
4 mm
11
FG
Q1
Disk 1
-Q1 -0 +Q2
Disk 2
Disk 3
What is the magnitude of the electric field in the region between disks 1 and 2?
IẾ,21 - 3292
v V/m
What is the direction of the electric field between disks 1 and 2? +x
Which of the following statements are true? Choose all that apply.
O V8 - VA - 0
O vg - VA = -((Q1/2.4)/e"(0.003) volts
O Along a path from A to BEIAI
To calculate Vc - VB, which path should you choose?
O A path starting at C and ending at B
O It doesn't matter whether the path starts or ends at B
O A path starting at B and ending at C
The sign of Vc - Vg should be:
Zero - no sign.
O Positive, because Al is opposite to the direction of E
O Negative, because Al is in the same direction as E
What is the potential difference Vc - VB?
Vc - V8 - -13.17
v volts
Transcribed Image Text:Three charged metal disks are arranged as shown (cutaway view). The disks are held apart by insulating supports not shown in the diagram. Each disk has an area of 2.4 m2 (this is the area of one flat surface of the disk). Use the value 8.85e-12 c/(N-m2) for eg.The charge Q1 = 7e-8 coulombs, and the charge Q2 - 4e-7 coulombs. 0.02 0.02 0.02 mm mm 1.7 mm mm --- 4 mm 11 FG Q1 Disk 1 -Q1 -0 +Q2 Disk 2 Disk 3 What is the magnitude of the electric field in the region between disks 1 and 2? IẾ,21 - 3292 v V/m What is the direction of the electric field between disks 1 and 2? +x Which of the following statements are true? Choose all that apply. O V8 - VA - 0 O vg - VA = -((Q1/2.4)/e"(0.003) volts O Along a path from A to BEIAI To calculate Vc - VB, which path should you choose? O A path starting at C and ending at B O It doesn't matter whether the path starts or ends at B O A path starting at B and ending at C The sign of Vc - Vg should be: Zero - no sign. O Positive, because Al is opposite to the direction of E O Negative, because Al is in the same direction as E What is the potential difference Vc - VB? Vc - V8 - -13.17 v volts
Which of the following statements are true? Choose all that apply.
O vg - VA = 0
O vg - VA - -((Q/2.4)/e"(0.003) volts
O Along a path from A to BEL AI
To calculate Vc - V8, which path should you choose?
O A path starting at C and ending at B
O It doesn't matter whether the path starts or ends at B
O A path starting at B and ending at C
The sign of Vc - Vg should be:
O Zero - no sign.
O Positive, because Al is opposite to the direction of E
O Negative, because Al is in the same direction as E
What is the potential difference Vc - Vg?
Vc - V8 --13.17
v volts
What is the potential difference Vo - Vc?
Vo - Vc = 0
What is the potential difference VE - Vp?
v volts
VE - Vo =
What is the potential difference VG - VF? VG - VF =0
What is the potential difference VG - VA? VG - VA = 18.83
volts
v volts
V volts
The charged disks have tiny holes which allow a particle to pass through them. An electron which is traveling at a fast speed approaches the plates from the left side. It travels along a path from A to G. Since
external work is done on the system of plates + electron,
AK + AU = Wext = 0
Consider the following states: Initial, electron at location A. Final, electron at location G.
What is the change in potential energy of the system?
AU =
joules
What is the change in kinetic energy of the electron?
AK =
joules
Transcribed Image Text:Which of the following statements are true? Choose all that apply. O vg - VA = 0 O vg - VA - -((Q/2.4)/e"(0.003) volts O Along a path from A to BEL AI To calculate Vc - V8, which path should you choose? O A path starting at C and ending at B O It doesn't matter whether the path starts or ends at B O A path starting at B and ending at C The sign of Vc - Vg should be: O Zero - no sign. O Positive, because Al is opposite to the direction of E O Negative, because Al is in the same direction as E What is the potential difference Vc - Vg? Vc - V8 --13.17 v volts What is the potential difference Vo - Vc? Vo - Vc = 0 What is the potential difference VE - Vp? v volts VE - Vo = What is the potential difference VG - VF? VG - VF =0 What is the potential difference VG - VA? VG - VA = 18.83 volts v volts V volts The charged disks have tiny holes which allow a particle to pass through them. An electron which is traveling at a fast speed approaches the plates from the left side. It travels along a path from A to G. Since external work is done on the system of plates + electron, AK + AU = Wext = 0 Consider the following states: Initial, electron at location A. Final, electron at location G. What is the change in potential energy of the system? AU = joules What is the change in kinetic energy of the electron? AK = joules
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