A point charge Q1=1uc is located in free soace at (0,0,1) while Q2 is at (0,0-1)...
A point charge Q1=1uc is located in free soace at (0,0,1) while Q2 is at (0,0-1) find the vector force on a 1-uc charge at (0,1,0) if Q2 equals. (a) 1 uc, (b)-1uc.
Homework Answers
For solution of this question we used coloumb's formula between
two points charges or force on one charge due to system of other
charges. 
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A point charge Q1=1uc is located in free soace at (0,0,1) while
Q2 is at (0,0-1)...
JV 1. A positive charge qi is located at the point (0,0) and a negative charge...
JV 1. A positive charge qi is located at the point (0,0) and a negative charge q2 at (a,0) At an arbitrary point (Oy) on the y-axis: (a) Find the magnitude of the electric field E1 due to charge qi and the magnitude of the electric field E2 due to charge q2 in terms of the given quantities q1, q2.y, and a. (b) Find the cos and sin of the angle θ that the vector E2 makes with the x-axis,...
2 : Three point charges of q1 -51d. q2 3μC are located at (O, o), (40),...
2 : Three point charges of q1 -51d. q2 3μC are located at (O, o), (40), and (0,3) respectively. What is the electric force on charge q2 by other two charges. (Draw a diagram first and then find the force. Here 1uC 10 C)
Charge q1= -7.5nC is located at the coordinate system origin, while charge q2= 5.5nC is located...
Charge q1= -7.5nC is located at the coordinate system origin, while charge q2= 5.5nC is located at (a,0), where a = 1.4m. The point P has coordinates (a,b), where b= 3.2m At the point P, find the y-component of the electric field Ey in units of N/C
Charge q1 = -2.5 nC is located at the coordinate system origin, while charge q2 =...
Charge q1 = -2.5 nC is located at the coordinate system origin, while charge q2 = -2.5 nC is located at (a, 0), where a = 1.3 m. The point P has coordinates (a, b), where b = 2.9 m. 1. At the point P, find the x-component of the electric field Ex in units of N/C. 2. At the point P, find the y-component of the electric field Ey in units of N/C.
A charge q1 = 2.00 μC is located at the origin and a charge q2 = 6.00 μC is located at (0, 3.00) m.
Example 1: A charge q1 = 2.00 μC is located at the origin and a charge q2 = 6.00 μC is located at (0, 3.00) m.(A) Find the total electric potential due to these charges at the point P, whose coordinates are (4.00, 0) m.(B) Find the change in potential energy of the system of two charges plus a third charge q3 3.00 uC as the latter charge moves from infinity to point P.
Two point charges, Q1-50C and Q, = 1011C , are located in free space at(-11,-3) and...
Two point charges, Q1-50C and Q, = 1011C , are located in free space at(-11,-3) and (3,1,0), respectively. Find: (a) the vector force on Q2. (b) the magnitude of this force.
In free space, a point charge Q1=9eQ1=9e CC is located at (0,0,0)(0,0,0) and a point charge...
In free space, a point charge Q1=9eQ1=9e CC is located at
(0,0,0)(0,0,0) and a point charge Q2=−eQ2=−e CC is located at
(10,0,0)(10,0,0).a) Find the potential at point PP
(3,−2,8)(3,−2,8) due to these two point
charges.V=V= VVb) It is known that the
equipotential surface having V=0V=0 VV is a spherical surface. Find
the location of the origin of the equipotential surface having
V=0V=0 VV.O=O=
(( , , ))c) Find
the radius RR of the equipotential surface having V=0V=0 VV.R=R=
At least one of the answers...
Q2/ Let a Point charge Q1 = 25nC be located at p.(4, -2, 7)and a charge...
Q2/ Let a Point charge Q1 = 25nC be located at p.(4, -2, 7)and a charge Q2 = 60nC be at p2(-3, 4,-2). In the free space of Cartesian coordinate system. Find: a) E at p3(1,2,3) b) E at the origin point. c) At what point on the y axis (0, y, 0) is E = 0.
Q2/ Let a Point charge Q1 = 25nC be located at p.(4, -2, 7)and a charge...
Q2/ Let a Point charge Q1 = 25nC be located at p.(4, -2, 7)and a charge Q2 = 60nC be at p2(-3, 4,-2). In the free space of Cartesian coordinate system. Find: a) E at p3(1,2,3) b) E at the origin point. c) At what point on the y axis (0, y, 0) is E = 0.
Point charge q1 = 5.0 nC is located at the origin and point charge q2 =...
Point charge q1 = 5.0 nC is located at the origin and point charge q2 = -5.0 nC is located at (0, 3.0 m). Determine the net force on a third point charge q3 = 2.0 nC if it is located at: (a) (0, 2.0 m), (b) (2.0 m, 0), (c)(2.0m,1.5m).(a.1.1×10-7 N,90°b.1.9×10-8 N,17°c.1.7×10-8 N,90°)
JV 1. A positive charge qi is located at the point (0,0) and a negative charge q2 at (a,0) At an arbitrary point (Oy) on the y-axis: (a) Find the magnitude of the electric field E1 due to charge qi and the magnitude of the electric field E2 due to charge q2 in terms of the given quantities q1, q2.y, and a. (b) Find the cos and sin of the angle θ that the vector E2 makes with the x-axis,...
2 : Three point charges of q1 -51d. q2 3μC are located at (O, o), (40), and (0,3) respectively. What is the electric force on charge q2 by other two charges. (Draw a diagram first and then find the force. Here 1uC 10 C)
Two point charges, Q1-50C and Q, = 1011C , are located in free space at(-11,-3) and (3,1,0), respectively. Find: (a) the vector force on Q2. (b) the magnitude of this force.
In free space, a point charge Q1=9eQ1=9e CC is located at
(0,0,0)(0,0,0) and a point charge Q2=−eQ2=−e CC is located at
(10,0,0)(10,0,0).a) Find the potential at point PP
(3,−2,8)(3,−2,8) due to these two point
charges.V=V= VVb) It is known that the
equipotential surface having V=0V=0 VV is a spherical surface. Find
the location of the origin of the equipotential surface having
V=0V=0 VV.O=O=
(( , , ))c) Find
the radius RR of the equipotential surface having V=0V=0 VV.R=R=
At least one of the answers...
Q2/ Let a Point charge Q1 = 25nC be located at p.(4, -2, 7)and a charge Q2 = 60nC be at p2(-3, 4,-2). In the free space of Cartesian coordinate system. Find: a) E at p3(1,2,3) b) E at the origin point. c) At what point on the y axis (0, y, 0) is E = 0.
Q2/ Let a Point charge Q1 = 25nC be located at p.(4, -2, 7)and a charge Q2 = 60nC be at p2(-3, 4,-2). In the free space of Cartesian coordinate system. Find: a) E at p3(1,2,3) b) E at the origin point. c) At what point on the y axis (0, y, 0) is E = 0.
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