7. Coulomb's equation is used for determining the force between 2 charged bodies separated by a F = k 9192 distance: The variables are k (Coulomb's constant), q (charge of body in Coulombs, C), r (distance between bodies in meters), and F (electrostatic force in Newton, N) a. Use measurements to determine Coulomb's constant for at least 2 situations. Show your work and include an image of experiments. Verify your value with research and include citations. b. Using your value of k, determine the electrostatic force for these 2 situations: i. -4µC charge is 3cm from a 5µC charge. ii. An electron has a charge of -1.6x10"C and a proton has a charge of 1.6x10"C. In a hydrogen atom, the distance between them is 5.3x10"m. Determine the electrostatic force between them. c. Open the full Coulomb's Law simulation to check your work. Describe how you used the simulation and include images for support. 8. Explain how electric forces are like gravitation forces and how they differ.
7. Coulomb's equation is used for determining the force between 2 charged bodies separated by a F = k 9192 distance: The variables are k (Coulomb's constant), q (charge of body in Coulombs, C), r (distance between bodies in meters), and F (electrostatic force in Newton, N) a. Use measurements to determine Coulomb's constant for at least 2 situations. Show your work and include an image of experiments. Verify your value with research and include citations. b. Using your value of k, determine the electrostatic force for these 2 situations: i. -4µC charge is 3cm from a 5µC charge. ii. An electron has a charge of -1.6x10"C and a proton has a charge of 1.6x10"C. In a hydrogen atom, the distance between them is 5.3x10"m. Determine the electrostatic force between them. c. Open the full Coulomb's Law simulation to check your work. Describe how you used the simulation and include images for support. 8. Explain how electric forces are like gravitation forces and how they differ.
Chapter7: Electricity
Section: Chapter Questions
Problem 5Q
Related questions
Question
- Coulomb’s equation is used for determining the force between 2 charged bodies separated by a distance:
The variables are k (Coulomb’s constant), q (charge of body in Coulombs, C), r (distance between bodies in meters), and F (electrostatic force in Newton, N)
- Use measurements to determine Coulomb’s constant for at least 2 situations. Show your work and include an image of experiments. Verify your value with research and include citations.
- Using your value of k, determine the electrostatic force for these 2 situations:
- -4?C charge is 3cm from a 5?C charge.
- An electron has a charge of -1.6x10-19C and a proton has a charge of 1.6x10-19C. In a hydrogen atom, the distance between them is 5.3x10-11m. Determine the electrostatic force between them.
Open the full Coulomb’s Law simulation to check your work. Describe how you used the simulation and include images for support.
![EMS Chapter 9.pd x B PHET Simulation x E Coulomb Law Ren x
| Coulomb's Law
| F X
C IUnderstand Hov x b Verify Email |bart x M Verify your email x
b My Tutoring |bar
+
A docs.google.com/document/d/1PWQ-6zv41WWv08JgltfBw-x_13Z4XHS0 QyXzuo4T64s/edit
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Coulomb Law Remote Lab *
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Use your understanding:
7. Coulomb's equation is used for determining the force between 2 charged bodies separated by a
31
F = k 9142
r2
distance:
The variables are k (Coulomb's constant), q (charge of body in Coulombs, C), r (distance between bodies
in meters), and F (electrostatic force in Newton, N)
a. Use measurements to determine Coulomb's constant for at least 2 situations. Show your work and
include an image of experiments. Verify your value with research and include citations.
I
b. Using your value of k, determine the electrostatic force for these 2 situations:
+
i.
-4µC charge is 3cm from a 5µC charge.
An electron has a charge of -1.6x101°C and a proton has a charge of 1.6x101°C. In a
hydrogen atom, the distance between them is 5.3x10"m. Determine the electrostatic
ii.
force between them.
c. Open the full Coulomb's Law simulation to check your work. Describe how you used the
simulation and include images for support.
8. Explain how electric forces are like gravitation forces and how they differ.
US
A 10:33](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5be3afd0-1651-4fe8-9be4-317800094519%2F67f51046-083a-4d0b-9ac1-2bb88f66d0d8%2Fsrq3v6c_processed.png&w=3840&q=75)
Transcribed Image Text:EMS Chapter 9.pd x B PHET Simulation x E Coulomb Law Ren x
| Coulomb's Law
| F X
C IUnderstand Hov x b Verify Email |bart x M Verify your email x
b My Tutoring |bar
+
A docs.google.com/document/d/1PWQ-6zv41WWv08JgltfBw-x_13Z4XHS0 QyXzuo4T64s/edit
NEW
ABP
susd 12.org bookmarks 1, Hāpara Student Da.
Other bookmarks
Coulomb Law Remote Lab *
Request edit access
A Share
File Edit View Tools Help
Use your understanding:
7. Coulomb's equation is used for determining the force between 2 charged bodies separated by a
31
F = k 9142
r2
distance:
The variables are k (Coulomb's constant), q (charge of body in Coulombs, C), r (distance between bodies
in meters), and F (electrostatic force in Newton, N)
a. Use measurements to determine Coulomb's constant for at least 2 situations. Show your work and
include an image of experiments. Verify your value with research and include citations.
I
b. Using your value of k, determine the electrostatic force for these 2 situations:
+
i.
-4µC charge is 3cm from a 5µC charge.
An electron has a charge of -1.6x101°C and a proton has a charge of 1.6x101°C. In a
hydrogen atom, the distance between them is 5.3x10"m. Determine the electrostatic
ii.
force between them.
c. Open the full Coulomb's Law simulation to check your work. Describe how you used the
simulation and include images for support.
8. Explain how electric forces are like gravitation forces and how they differ.
US
A 10:33
![EMS Chapter 9.pd x B PHET Simulation x E Coulomb Law Ren x
| Coulomb's Law
| F X
C IUnderstand Hov x b Verify Email |bart x M Verify your email x
b My Tutoring |bar
+
A docs.google.com/document/d/1PWQ-6zv41WWv08JgltfBw-x_13Z4XHS0 QyXzuo4T64s/edit
NEW
ABP
susd 12.org bookmarks 1, Hāpara Student Da.
Other bookmarks
Coulomb Law Remote Lab *
Request edit access
A Share
File Edit View Tools Help
Use your understanding:
7. Coulomb's equation is used for determining the force between 2 charged bodies separated by a
31
F = k 9142
r2
distance:
The variables are k (Coulomb's constant), q (charge of body in Coulombs, C), r (distance between bodies
in meters), and F (electrostatic force in Newton, N)
a. Use measurements to determine Coulomb's constant for at least 2 situations. Show your work and
include an image of experiments. Verify your value with research and include citations.
I
b. Using your value of k, determine the electrostatic force for these 2 situations:
+
i.
-4µC charge is 3cm from a 5µC charge.
An electron has a charge of -1.6x101°C and a proton has a charge of 1.6x101°C. In a
hydrogen atom, the distance between them is 5.3x10"m. Determine the electrostatic
ii.
force between them.
c. Open the full Coulomb's Law simulation to check your work. Describe how you used the
simulation and include images for support.
8. Explain how electric forces are like gravitation forces and how they differ.
US
A 10:33](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5be3afd0-1651-4fe8-9be4-317800094519%2F67f51046-083a-4d0b-9ac1-2bb88f66d0d8%2Fuu2ei5i_processed.png&w=3840&q=75)
Transcribed Image Text:EMS Chapter 9.pd x B PHET Simulation x E Coulomb Law Ren x
| Coulomb's Law
| F X
C IUnderstand Hov x b Verify Email |bart x M Verify your email x
b My Tutoring |bar
+
A docs.google.com/document/d/1PWQ-6zv41WWv08JgltfBw-x_13Z4XHS0 QyXzuo4T64s/edit
NEW
ABP
susd 12.org bookmarks 1, Hāpara Student Da.
Other bookmarks
Coulomb Law Remote Lab *
Request edit access
A Share
File Edit View Tools Help
Use your understanding:
7. Coulomb's equation is used for determining the force between 2 charged bodies separated by a
31
F = k 9142
r2
distance:
The variables are k (Coulomb's constant), q (charge of body in Coulombs, C), r (distance between bodies
in meters), and F (electrostatic force in Newton, N)
a. Use measurements to determine Coulomb's constant for at least 2 situations. Show your work and
include an image of experiments. Verify your value with research and include citations.
I
b. Using your value of k, determine the electrostatic force for these 2 situations:
+
i.
-4µC charge is 3cm from a 5µC charge.
An electron has a charge of -1.6x101°C and a proton has a charge of 1.6x101°C. In a
hydrogen atom, the distance between them is 5.3x10"m. Determine the electrostatic
ii.
force between them.
c. Open the full Coulomb's Law simulation to check your work. Describe how you used the
simulation and include images for support.
8. Explain how electric forces are like gravitation forces and how they differ.
US
A 10:33
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