Referring to the diagram above.
if Q1 = 9.0 μC, Q2 = -5.0 μC and Q3 = 28.0 μC,
a. what is the magnitude of the electric field at
Q2?
b. what is the potential at Q2?
c. what is the potential energy of Q2
Homework Answers
The electric field potential and potential energy of charge Q2
Add Answer to:
Referring to the diagram above.
if Q1 = 9.0 μC, Q2 = -5.0 μC and
Q3...
Referring to the diagram, Q1 = 7.00µC , Q2 = -6.00µC, Q3 = 7.00µC, y =...
Referring to the diagram,
Q1 = 7.00µC , Q2 = -6.00µC, Q3 = 7.00µC, y = 2.00cm and x =
6.00cm.
a. What is the magnitude of the electric field at Q2?
b. What is the potential at Q2?
c. What is the potential energy of Q2 in units of joules?
a1 23
Three charges (Q1 = +12.0 μC, Q2 = −5.0 μC, Q3 = −9.0 μC) are arranged...
Three charges (Q1 = +12.0 μC, Q2 = −5.0 μC, Q3 = −9.0 μC) are arranged in a triangle and fixed in place. The base of the triangle has a length of d = 30 cm. The other two legs are of length of L = 40 cm. What is the electrical potential energy stored in this group of charges?
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...
The figure shows three charges q1, q2 and q3 situated at corners of a rectangle of...
The figure shows three charges q1, q2 and q3 situated at corners of a rectangle of sides a 14.0 cm and b = 8.0 cm 39 2 For q 1-5.60 μC, q2-. 5.60 pC, and q3-1.90 μC find the electric potential at the center of the rectangle. Submit Answer Tries 0/99 Continuing with the figure above, how much of the electric energy of the system would be expended in moving q3 to infinity while q1 and q2 remain in their...
, and q3, are oriented such that q2 is between q1 and q3. The charge on...
, and q3, are oriented such that q2 is between q1 and q3. The charge on q2 is -13.5 HC E field lines (a) q1 and q3 have what sign of charge? 1 Select. 43 Select v (b) If the magnitude of the charge on q1 is 8.8 μC, what is the magnitude of charge on 93? HC
The figure shows three charges q1, q2 and q3 situated at corners of a rectangle of...
The figure shows three charges q1, q2 and q3 situated at corners of a rectangle of sides a 16.0 cm and b 8.0 cm. :b G- 2 For q1-4.90 μC, q2--4.90 με, and q3-1.60 μC find the electric potential at the center of the rectangle. 1.61x105 v You are correct. Previous Tries Continuing with the figure above, how much of the electric energy of the system would be expended in moving q3 to infinity while q1 and q2 remain in...
assume charges q1 and q2 are fixed in place. A charge q3 (-5.00 μC) is initially...
assume charges q1 and q2 are fixed in place. A charge q3 (-5.00
μC) is initially at point A and is later moved to point B. Find the
magnitude and direction of the electric force on q3 when at
location A.
Now find the electric force on charge q3 (-5.00 μC) when it is
moved to location B.
will vote, please show all work if possible
q1 -12.0 μC 45.0 cm
a) In the picture below, the 3 charges Q1, Q2 and Q3 are located at positions...
a) In the picture below, the 3
charges Q1, Q2 and Q3 are located at positions (-a,0), (a,0) and
(0,-d) respectively. (The origin is the point halfway between Q1
and Q2.) Consider the special case where Q1, Q3 greater than zero
and Q2 = -Q1. Select true or false for each statement. The force on
Q3 due to the other two charges is zero. The electric potential at
any point along the y-axis is positive. If Q3 is released from...
The figure shows three charges q1, q2, and q3, situated at corners of a rectangle of...
The figure shows three charges q1, q2, and q3, situated at
corners of a rectangle of sides a = 14.0 cm and b = 8.0 cm. For q1
= 5.70 μC, q2 = -5.70 μC,and q3 = 1.60 μC, find the electric
potential at the center of the rectangle. b) Continuing with the
figure above, how much work is required in moving q3 to infinity
while q1 and q2 remain in their positions?
Problem 1 2 a) The figure shows...
In the picture below, the 3 charges Q1, Q2 and Q3 are located at positions (-a,0),...
In the picture below, the 3 charges Q1, Q2and Q3 are located at positions (-a,0), (a,0) and (0,-d)
respectively.(The origin is the point halfway between Q1 and
Q2.)Consider the special case where Q1, Q3greater than zero and Q2 = -Q1.Select true or false for each statement.True False If Q3 is released from rest, it will
initially accelerate to the right.True False The electric potential at any point along the
y-axis is positive.True False The electric potential at the origin equals
Q3/(4πε0d).(Here k =...
Referring to the diagram,
Q1 = 7.00µC , Q2 = -6.00µC, Q3 = 7.00µC, y = 2.00cm and x =
6.00cm.
a. What is the magnitude of the electric field at Q2?
b. What is the potential at Q2?
c. What is the potential energy of Q2 in units of joules?
a1 23
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...
The figure shows three charges q1, q2 and q3 situated at corners of a rectangle of sides a 14.0 cm and b = 8.0 cm 39 2 For q 1-5.60 μC, q2-. 5.60 pC, and q3-1.90 μC find the electric potential at the center of the rectangle. Submit Answer Tries 0/99 Continuing with the figure above, how much of the electric energy of the system would be expended in moving q3 to infinity while q1 and q2 remain in their...
, and q3, are oriented such that q2 is between q1 and q3. The charge on q2 is -13.5 HC E field lines (a) q1 and q3 have what sign of charge? 1 Select. 43 Select v (b) If the magnitude of the charge on q1 is 8.8 μC, what is the magnitude of charge on 93? HC
The figure shows three charges q1, q2 and q3 situated at corners of a rectangle of sides a 16.0 cm and b 8.0 cm. :b G- 2 For q1-4.90 μC, q2--4.90 με, and q3-1.60 μC find the electric potential at the center of the rectangle. 1.61x105 v You are correct. Previous Tries Continuing with the figure above, how much of the electric energy of the system would be expended in moving q3 to infinity while q1 and q2 remain in...
assume charges q1 and q2 are fixed in place. A charge q3 (-5.00
μC) is initially at point A and is later moved to point B. Find the
magnitude and direction of the electric force on q3 when at
location A.
Now find the electric force on charge q3 (-5.00 μC) when it is
moved to location B.
will vote, please show all work if possible
q1 -12.0 μC 45.0 cm
a) In the picture below, the 3
charges Q1, Q2 and Q3 are located at positions (-a,0), (a,0) and
(0,-d) respectively. (The origin is the point halfway between Q1
and Q2.) Consider the special case where Q1, Q3 greater than zero
and Q2 = -Q1. Select true or false for each statement. The force on
Q3 due to the other two charges is zero. The electric potential at
any point along the y-axis is positive. If Q3 is released from...
The figure shows three charges q1, q2, and q3, situated at
corners of a rectangle of sides a = 14.0 cm and b = 8.0 cm. For q1
= 5.70 μC, q2 = -5.70 μC,and q3 = 1.60 μC, find the electric
potential at the center of the rectangle. b) Continuing with the
figure above, how much work is required in moving q3 to infinity
while q1 and q2 remain in their positions?
Problem 1 2 a) The figure shows...
In the picture below, the 3 charges Q1, Q2and Q3 are located at positions (-a,0), (a,0) and (0,-d)
respectively.(The origin is the point halfway between Q1 and
Q2.)Consider the special case where Q1, Q3greater than zero and Q2 = -Q1.Select true or false for each statement.True False If Q3 is released from rest, it will
initially accelerate to the right.True False The electric potential at any point along the
y-axis is positive.True False The electric potential at the origin equals
Q3/(4πε0d).(Here k =...
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