2. The figure shows two parallel plates. The graph indicates the potential at points (X1= 0.300 m and X2= 0.400 m) between two plates, with V2 = 20 V and V1= 15 V. An electron is released from rest at x1, and that release point and the plate locations are aligned with the graph. What is the electrons speed (m/s) just as it runs into the plate? (You must decide which plate it hits) helpful info: V₂ 4. 0 X X₁ X₂ T grap plate it hits.) (Electron charge q = -1.6 x 10" C, AK-q AV, electron mass=9.1 x 10 kg. V-Joule/Coulomb, 1 eV=1.6 x 109 J, K-mv²/2)
2. The figure shows two parallel plates. The graph indicates the potential at points (X1= 0.300 m and X2= 0.400 m) between two plates, with V2 = 20 V and V1= 15 V. An electron is released from rest at x1, and that release point and the plate locations are aligned with the graph. What is the electrons speed (m/s) just as it runs into the plate? (You must decide which plate it hits) helpful info: V₂ 4. 0 X X₁ X₂ T grap plate it hits.) (Electron charge q = -1.6 x 10" C, AK-q AV, electron mass=9.1 x 10 kg. V-Joule/Coulomb, 1 eV=1.6 x 109 J, K-mv²/2)
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Transcribed Image Text:2. The figure shows two parallel plates. The graph indicates the potential at points (X1= 0.300 m and X2=
0.400 m) between two plates, with V2 = 20 V and V1= 15 V. An electron is released from rest at x1, and that
release point and the plate locations are aligned with the graph. What is the electrons speed (m/s) just as it
runs into the plate? (You must decide which plate it hits) helpful info::
grap wo
plate it hits.)
V₂
V₁
0
A
| |
X₁ X₂
e
(Electron charge q = -1.6 x 10¹9 C, AK-q AV, electron mass = 9.1 x 10-³¹ kg,
V=Joule/Coulomb, 1 eV = 1.6 x 10¹9 J, K-mv²/2)
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