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Assignment Overview

For a set of charged parallel plates, relate the distance between plates and voltage across the plates to the electric field strength, the electric potential value, the electric potential energy, the work required to move against the field, the force on a charged ion, and the velocity and acceleration of a released charged ion.

1. EVC3Q1

Points: 0/19

Two equally and oppositely charged plates of area 2700 mm² separated by a distance of 24 mm are given a charge of 3.0 nC on the top plate and -3.0 nC on the bottom plate as shown at right. Black arrows represent the E-field and blue lines represent equipotential lines. Consider the Electric Potential value of the negative plate to be 0 Volts.

ε_o=8.85418782*10^-12 farads/meter

+1 charge = 1.6*10^-19 Coulombs

2. EVC3Q2

Points: 0/14

Two equally and oppositely charged plates of area 2500 mm² separated by a distance of 32 mm are given a voltage across the plates equal to 9396.7 Volts. Black arrows represent the E-field and blue lines represent equipotential lines. Consider the Electric Potential value of the negative plate to be 0 Volts.

ε_o=8.85418782*10^-12 farads/meter

+1 charge = 1.6*10^-19 Coulombs

What is the Electric Field value?

Electric Field
x10^
N/C
Attempts: 0
What is the Electric Potential at position A?

Electric Potential
Volts
Attempts: 0
A positive Chlorine ion of charge +1 is introduced between the plates. What is the Electric Potential Energy of the charged ion if it is at position A?

Position A PE
x10^
Joules
Attempts: 0
What is the Electric Potential at position B?

Electric Potential
Volts
Attempts: 0
What would be the Electric Potential Energy of the charged ion at position B?

Position B PE
x10^
Joules
Attempts: 0
What is the Electric Potential at position C?

Electric Potential
Volts
Attempts: 0
What would be the Electric Potential Energy of the charged ion at position C?

Position C PE
x10^
Joules
Attempts: 0
What is the Electric Potential at position D?

Electric Potential
Volts
Attempts: 0
What would be the Electric Potential Energy of the charged ion at position D?

Position D PE
x10^
Joules
Attempts: 0
How much work would be required to move the charged ion from Position D to Position C to Position B to Position A?

Work
x10^
Joules
Attempts: 0
How much work would be required to move the charged ion from the negative plate to the positive plate?

Work
x10^
Joules
Attempts: 0
What is the force required to move the charge against the field at constant velocity?

Force
x10^
Newtons
Attempts: 0
If the charged Chlorine ion of mass 5.76*10^-26 kg was released at the positive plate how fast would it be going by the time it got to the negative plate?

Velocity
x10^
m/s
Attempts: 0
What would be the acceleration of the ion?

Acceleration
x10^
m/s/s
Attempts: 0

3. EVC3Q3

Points: 0/15

Two equally and oppositely charged plates of area 2300 mm² separated by a distance of 22 mm are given a voltage across the plates such that an E-field of 1.4731*10⁵ N/C is set up between the plates. Black arrows represent the E-field and blue lines represent equipotential lines. Consider the Electric Potential value of the negative plate to be 0 Volts.

ε_o=8.85418782*10^-12 farads/meter

+1 charge = 1.6*10^-19 Coulombs

What is the magnitude of the charge on each plate?

Charge on each Plate
nC
Attempts: 0
What is the Electrical Potential across the plates?

Electric Potential
Volts
Attempts: 0
What is the Electric Potential at position A?

Electric Potential
Volts
Attempts: 0
A positive Chlorine ion of charge +1 is introduced between the plates. What is the Electric Potential Energy of the charged ion if it is at position A?

Position A PE
x10^
Joules
Attempts: 0
What is the Electric Potential at position B?

Electric Potential
Volts
Attempts: 0
What would be the Electric Potential Energy of the charged ion at position B?

Position B PE
x10^
Joules
Attempts: 0
What is the Electric Potential at position C?

Electric Potential
Volts
Attempts: 0
What would be the Electric Potential Energy of the charged ion at position C?

Position C PE
x10^
Joules
Attempts: 0
What is the Electric Potential at position D?

Electric Potential
Volts
Attempts: 0
What would be the Electric Potential Energy of the charged ion at position D?

Position D PE
x10^
Joules
Attempts: 0
How much work would be required to move the charged ion from Position D to Position C to Position B to Position A?

Work
x10^
Joules
Attempts: 0
How much work would be required to move the charged ion from the negative plate to the positive plate?

Work
x10^
Joules
Attempts: 0
What is the force required to move the charge against the field at constant velocity?

Force
x10^
Newtons
Attempts: 0
If the charged Chlorine ion of mass 5.76*10^-26 kg was released at the positive plate how fast would it be going by the time it got to the negative plate?

Velocity
x10^
m/s
Attempts: 0
What would be the acceleration of the ion?

Acceleration
x10^
m/s/s
Attempts: 0

4. EVC3Q4

Points: 0/15

Two equally and oppositely charged plates separated by a distance of 38 mm are given a charge of 4.5 nC on the top plate and -4.5 nC on the bottom plate as shown at right. A voltage of 9656.4 Volts is established across the plates. Black arrows represent the E-field and blue lines represent equipotential lines. Consider the Electric Potential value of the negative plate to be 0 Volts.

ε_o=8.85418782*10^-12 farads/meter

+1 charge = 1.6*10^-19 Coulombs

What is the Electric Field value between the plates?

Electric Field
x10^
N/C
Attempts: 0
What is the area of each plate?

Plate Area
mm²
Attempts: 0
What is the Electric Potential at position A?

Electric Potential
Volts
Attempts: 0
What is the Electric Potential Energy of the charged ion if it is at position A?

Position A PE
x10^
Joules
Attempts: 0
What is the Electric Potential at position B?

Electric Potential
Volts
Attempts: 0
What is the Electric Potential Energy of the charged ion if it is at position B?

Position B PE
x10^
Joules
Attempts: 0
What is the Electric Potential at position C?

Electric Potential
Volts
Attempts: 0
What is the Electric Potential Energy of the charged ion if it is at position C?

Position C PE
x10^
Joules
Attempts: 0
What is the Electric Potential at position D?

Electric Potential
Volts
Attempts: 0
What is the Electric Potential Energy of the charged ion if it is at position D?

Position D PE
x10^
Joules
Attempts: 0
How much work would be required to move the charged ion from Position D to Position C to Position B to Position A?

Work
x10^
Joules
Attempts: 0
How much work would be required to move the charged ion from the negative plate to the positive plate?

Work
x10^
Joules
Attempts: 0
What is the force required to move the charge against the field at constant velocity?

Force
x10^
Newtons
Attempts: 0
If the charged Chlorine ion of mass 5.76*10^-26 kg was released at the positive plate how fast would it be going by the time it got to the negative plate?

Velocity
x10^
m/s
Attempts: 0
What would be the acceleration of the ion?

Acceleration
x10^
m/s/s
Attempts: 0

Set EVC3: Parallel Plate Characteristics

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