Homework Answers
Prob. 3 In the diagram q1 =15.0°C and 92 = -2.0°C are placed on the two...
Prob. 3 In the diagram q1 =15.0°C and 92 = -2.0°C are placed on the two corners of an equilateral triangle abc of base L = 3.0cm. = 206 [a] What is the electric potential energy (in units of J) of 91 and 92? Prob. 3 In the diagram 91 =15.0°C and 92 = - 2.0uC are placed on the two corners of an equilateral triangle abc of base L : 3.0cm. = L-.. 2009 [b] What is the electric...
Prob. 3 In the diagram q1 =15.0°C and 92 = -2.0uC are placed on the two...
Prob. 3 In the diagram q1 =15.0°C and 92 = -2.0uC are placed on the two corners of an equilateral triangle abc of base L = 3.0cm. [c] Now, you bring a particle of mass m=1.5 x10-6kg and excess charge q3 = 5.0 MC from infinity and place it at C, the unoccupied corner of the triangle (see figure below). What is the value (in units of J) of the electric potential energy of q3 in the presence of q1...
Prob. 3 In the diagram q1 =15.0uC and 92 = -2.0°C are placed on the two...
Prob. 3 In the diagram q1 =15.0uC and 92 = -2.0°C are placed on the two corners of an equilateral triangle abc of base L = 3.0cm. A particle of mass m=1.5 x10-6kg and excess charge q3 = 5.0 C has been brought from infinity and placed at C, the unoccupied corner of the triangle (see figure below). [d] What is the total potential energy, UT (in units of J) of the three-charge configuration? ca
where X=1.2 and Y=1.2 4. Two point charges Q1 = -X UC Q2 = +X y...
where X=1.2 and Y=1.2
4. Two point charges Q1 = -X UC Q2 = +X y are placed according to the figure below. --- 3 cm 4 cm 4 cm +XuC -X uc a) (3 points) Calculate the potential at point A (VA) b) (3 points) Calculate the potential at point B (Ve) in the figure. c) (3 points) What is the potential energy of this configuration? d) (3 points) What is the total potential electrostatic energy if a charge...
Two charges are arranged as shown in Figure Q1.1. Charge q1-48 pC is located on the...
Two charges are arranged as shown in Figure Q1.1. Charge q1-48 pC is located on the positive y-axis at y 4.0 cm. Charge q2-100 pC is located on the positive x-axis at x -5.0 cm 91-48 pC 4.0 cm 5.0 cm q, =-100 pC 0 Figure Q1.1 Question6 1 pts Calculate the direction [in degrees] of E, the total electric field at the origin. Question7 1 pts A charge 43 20 pC is located on the origin. Calculate the magnitude...
Two charges are arranged as shown in Figure Q1.1. Charge q1--48 pC is located on the...
Two charges are arranged as shown in Figure Q1.1. Charge q1--48 pC is located on the positive y-axis at y 4.0 cm. Charge q2-100 pC is located on the positive x-axis at x 5.0 cm 91-48 pC 4.0 cm 5.0 cm 2-100 pC Figure Q1.1 Question7 1 pts A charge 43 -20 pC is located on the origin. Calculate the magnitude [in N] of force F on 93 Question 8 1 pts A charge q3 20 pC is located on...
Consider the figure shown below. Q1 = 1.00 x10-9 C and Q2 = -7.80 X10-9 C....
Consider the figure shown below. Q1 = 1.00 x10-9 C and Q2 = -7.80 X10-9 C. Calculate the potential at the location marked '3'. Charges Q1, Q2, and point '3' are all located at integer coordinates, and assume the potential is zero at infinity. Distance (cm) 0 2 10 12 4 6 8 Distance (cm) -645 V Add the potential from each charge being careful to account algebraically for the signs. Submit Answer Incorrect. Tries 6/100 Previous Tries
Three point charges, Q1 - 22. 4C, Q2 = - 34.6C, and Qs = 67.3 C,...
Three point charges, Q1 - 22. 4C, Q2 = - 34.6C, and Qs = 67.3 C, are arranged as shown in the figure. The lengths y and both equal 90.1 cm. Calculate the electric potential V at point A
Consider a system of three charges shown in (Figure 1).An object with charge q4 = +6.0×10−9C...
Consider a system of three charges shown in (Figure 1).An object
with charge q4 = +6.0×10−9C is moved to position C from infinity
(not shown in the figure). q1 = q2 = q3 = +10.0×10−8C. a.
Determine the initial electric potential energy of the system
consisting of all four charges. b.
Determine the final electric potential energy of the system
consisting of all four charges.
c. Determine the work done on the system by moving the charge q4
from infinity...
In the diagram q1 =15.0μC and q2 = - 2.0μC are placed on the two corners...
In the diagram q1 =15.0μC and q2 = - 2.0μC are placed on the two
corners of an equilateral triangle abc of base L = 3.0cm.
a. What is the electric potential energy (in units of
J) of q1 and
q2?
b. What is the electric potential (in units of
106Volts) at c due to
q1 and q2?
c. Now, you bring a particle of mass m=1.5
x10-6kg and excess charge q3 =
5.0 μC from infinity and place it...
Prob. 3 In the diagram q1 =15.0°C and 92 = -2.0°C are placed on the two corners of an equilateral triangle abc of base L = 3.0cm. = 206 [a] What is the electric potential energy (in units of J) of 91 and 92? Prob. 3 In the diagram 91 =15.0°C and 92 = - 2.0uC are placed on the two corners of an equilateral triangle abc of base L : 3.0cm. = L-.. 2009 [b] What is the electric...
Prob. 3 In the diagram q1 =15.0°C and 92 = -2.0uC are placed on the two corners of an equilateral triangle abc of base L = 3.0cm. [c] Now, you bring a particle of mass m=1.5 x10-6kg and excess charge q3 = 5.0 MC from infinity and place it at C, the unoccupied corner of the triangle (see figure below). What is the value (in units of J) of the electric potential energy of q3 in the presence of q1...
Prob. 3 In the diagram q1 =15.0uC and 92 = -2.0°C are placed on the two corners of an equilateral triangle abc of base L = 3.0cm. A particle of mass m=1.5 x10-6kg and excess charge q3 = 5.0 C has been brought from infinity and placed at C, the unoccupied corner of the triangle (see figure below). [d] What is the total potential energy, UT (in units of J) of the three-charge configuration? ca
where X=1.2 and Y=1.2
4. Two point charges Q1 = -X UC Q2 = +X y are placed according to the figure below. --- 3 cm 4 cm 4 cm +XuC -X uc a) (3 points) Calculate the potential at point A (VA) b) (3 points) Calculate the potential at point B (Ve) in the figure. c) (3 points) What is the potential energy of this configuration? d) (3 points) What is the total potential electrostatic energy if a charge...
Two charges are arranged as shown in Figure Q1.1. Charge q1-48 pC is located on the positive y-axis at y 4.0 cm. Charge q2-100 pC is located on the positive x-axis at x -5.0 cm 91-48 pC 4.0 cm 5.0 cm q, =-100 pC 0 Figure Q1.1 Question6 1 pts Calculate the direction [in degrees] of E, the total electric field at the origin. Question7 1 pts A charge 43 20 pC is located on the origin. Calculate the magnitude...
Two charges are arranged as shown in Figure Q1.1. Charge q1--48 pC is located on the positive y-axis at y 4.0 cm. Charge q2-100 pC is located on the positive x-axis at x 5.0 cm 91-48 pC 4.0 cm 5.0 cm 2-100 pC Figure Q1.1 Question7 1 pts A charge 43 -20 pC is located on the origin. Calculate the magnitude [in N] of force F on 93 Question 8 1 pts A charge q3 20 pC is located on...
Consider the figure shown below. Q1 = 1.00 x10-9 C and Q2 = -7.80 X10-9 C. Calculate the potential at the location marked '3'. Charges Q1, Q2, and point '3' are all located at integer coordinates, and assume the potential is zero at infinity. Distance (cm) 0 2 10 12 4 6 8 Distance (cm) -645 V Add the potential from each charge being careful to account algebraically for the signs. Submit Answer Incorrect. Tries 6/100 Previous Tries
Three point charges, Q1 - 22. 4C, Q2 = - 34.6C, and Qs = 67.3 C, are arranged as shown in the figure. The lengths y and both equal 90.1 cm. Calculate the electric potential V at point A
Consider a system of three charges shown in (Figure 1).An object
with charge q4 = +6.0×10−9C is moved to position C from infinity
(not shown in the figure). q1 = q2 = q3 = +10.0×10−8C. a.
Determine the initial electric potential energy of the system
consisting of all four charges. b.
Determine the final electric potential energy of the system
consisting of all four charges.
c. Determine the work done on the system by moving the charge q4
from infinity...
In the diagram q1 =15.0μC and q2 = - 2.0μC are placed on the two
corners of an equilateral triangle abc of base L = 3.0cm.
a. What is the electric potential energy (in units of
J) of q1 and
q2?
b. What is the electric potential (in units of
106Volts) at c due to
q1 and q2?
c. Now, you bring a particle of mass m=1.5
x10-6kg and excess charge q3 =
5.0 μC from infinity and place it...
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