5. Look at the directions of the forces, do they indicate attraction or repulsion? 6. Is charge qiattracted to q2 or repelled? 7. What happens to the magnitude of the force as the charges are moved further apart? moved closer together?

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Chapter1: Units, Trigonometry. And Vectors
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please use this website for reference https://phet.colorado.edu/sims/html/coulombs-law/latest/coulombs-law_en.html or search “phet colorado coulomb’s law law” afterwards click macro scale to answer questions DO 5–7 ONLY PLSSS PLSS
COULOMB LAW SIMULATION
(https://phet.colorado.edu/sims/html/coulombs-law/latest/coulombs-law_en.html)
Introduction
In class we learned that different materials can have different charges. These charges can be either "negative of
"positive" (or “neutral" if there is no charge). The origin of this charge is the protons and electrons in the atoms
which make up a material. In the case of two points charges qi and q2 at a distance r away from each other,
Coulomb's Law gives the force as:
F = k9192
where k = 9 x 10° Nm2/C2 is the Coulomb constant.
Coulomb's Law
Open the simulation and select "Macro Scale."
Force on q, by 91 =0.00 N
Force on q, by 92 = 0.00 N
Charge 1
Charge
M Force Values
Scientific Notation
For questions 1-6 only change the value of the charges. Do not change the distance!
Set the charges qi= 0 µC and q2= 10 µC
1. What is the magnitude of the force on qi by q2?
2. How does this compare with the magnitude of the force on q2 by q1?
Set the charges to be qi= 5 µC and q2=5 µC
3. What is the magnitude of the force on qi by q2?
4. How does this compare with the magnitude of the force on q2 by qı?
5. Look at the directions of the forces, do they indicate attraction or repulsion?
6. Is charge qi attracted to q2 or repelled?
7. What happens to the magnitude of the force as the charges are moved further apart? moved closer together?
Transcribed Image Text:COULOMB LAW SIMULATION (https://phet.colorado.edu/sims/html/coulombs-law/latest/coulombs-law_en.html) Introduction In class we learned that different materials can have different charges. These charges can be either "negative of "positive" (or “neutral" if there is no charge). The origin of this charge is the protons and electrons in the atoms which make up a material. In the case of two points charges qi and q2 at a distance r away from each other, Coulomb's Law gives the force as: F = k9192 where k = 9 x 10° Nm2/C2 is the Coulomb constant. Coulomb's Law Open the simulation and select "Macro Scale." Force on q, by 91 =0.00 N Force on q, by 92 = 0.00 N Charge 1 Charge M Force Values Scientific Notation For questions 1-6 only change the value of the charges. Do not change the distance! Set the charges qi= 0 µC and q2= 10 µC 1. What is the magnitude of the force on qi by q2? 2. How does this compare with the magnitude of the force on q2 by q1? Set the charges to be qi= 5 µC and q2=5 µC 3. What is the magnitude of the force on qi by q2? 4. How does this compare with the magnitude of the force on q2 by qı? 5. Look at the directions of the forces, do they indicate attraction or repulsion? 6. Is charge qi attracted to q2 or repelled? 7. What happens to the magnitude of the force as the charges are moved further apart? moved closer together?
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