Consider the charge distribution illustrated below with a
positive charge q_1 = 2 mu Cq 1 =2μC and a negative charge q_2
= -2 mu Cq 2 =−2μC. What is the magnitude of the electric field
at the "X" if r = 10 nmr=10nm? Note that the two charges and the
point "X" together form an equilateral triangle with each side of
length, r.
Homework Answers
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Consider the charge distribution illustrated below with a positive charge q_1 = 2 mu Cq 1...
Consider the charge distribution illustrated below with a positive charge q 1 and a negative charge...
Consider the charge distribution illustrated below with a
positive charge q 1 and a negative charge q 2 , both having the
same magnitude q. Which of the arrows below best describes the
direction of the electric field at the point marked
"X" in the figure below. Note that the two charges
and the point X together form an equilateral triangle.
Consider the charge distribution illustrated below with a positive charge qi and a negative charge q2, both having the...
Point charge q_1 = +3.67 mu C is at point A (-37.2 cm, 0), and point...
Point charge q_1 = +3.67 mu C is at point A (-37.2 cm, 0), and point charge q_2, carrying an equal and opposite charge, is at point B (+37.2 cm, 0). Find the magnitude of the electric field at the origin. Give the direction of the electric field at the origin. out of the page toward the negative charge toward the positive charge downward upward zero into the page An electron (q = 1.60 times 10^-19, m = 9.11 times...
A charge q_1 = 2.32 mu c is at a distance d = 1.43 m from...
A charge q_1 = 2.32 mu c is at a distance d = 1.43 m from a second charge q_2 = -6.07 mu c. (a) Find the electric potential at a point A between the two charges that is d/2 from q_1. Note that the location A in the diagram above is not to scale. V (b) Find a point between the two charges on the horizontal line where the electric potential is zero. (Enter your answer as measured from...
Positive point charge q_1 = +6.0 times 10^-9 C is at the origin and negative point...
Positive point charge q_1 = +6.0 times 10^-9 C is at the origin and negative point charge q_2 = -4.0 times 10^-9 C is on the negative x-axis at x = -0.200 m. Point A is on the +x-axis at x = 0.100 m and point B is on the +x-axis at x = 0.300 m. How mu Ch work does the resultant electric field of q_1 and q_2 do on a third point charge q_3 = -5.0 times 10^-3...
Find the electric potential energy for the following array of charges: charge q_1 = +4.0 mu...
Find the electric potential energy for the following array of charges: charge q_1 = +4.0 mu C is located at (x, y) = (0.0, 0.0) m: charge q_2 = +2.0 mu C is located at (4.0, 3.0) m: and charge q_3 = -1.0 mu C is located at (0.0, 3.0) m. mJ
Three charges are at the corners of an equilateral triangle, as shown in the figure below....
Three charges are at the corners of an equilateral triangle, as shown in the figure below. Calculate the electric field at a point midway between the two charges on the X-axis (Let q_1 = 3.50 mu C, q_2 = 5.00 mu C, and q_3 = 7.50 mu c.)
Three point charges are located on the corners of an equilateral triangle 50cm side: The charge...
Three point charges are located on the corners of an equilateral triangle 50cm side: The charge q_1 = + 10µC is at the origin, The charge q_2 = + 9µC in the upper corner of the triangle, at charge q_3 = -6 µC located at the x axis. What is the total force (magnitude and direction) exerted on q_1
Two charges are located on the x axis as shown in the figure. d = 1.11\...
Two charges are located on the x axis as shown in the figure. d = 1.11\ cmd=1.11 cm, q_1 = +8.13\ \mu Cq1=+8.13 μC, and q_2 = -6.69\ \mu Cq2=−6.69 μC. What charge q_3q3 needs to be placed at position x = 3dx=3d so that the magnitude of the electric field at the origin is zero?
A positive charge, q_1 = 7.93 nCq 1 =7.93nC , is located at the origin...
A positive charge, q_1 = 7.93
nCq 1 =7.93nC , is located at the origin (x = 0 ~m, y = 0
~m)(x=0 m,y=0 m). A negative charge, q_2 = 4.50 nCq 2 =4.50nC ,
is located on the x-axis at (x = 4 ~m, y = 0 ~m)(x=4 m,y=0 m).
Calculate the magnitude of the electric field at the location
marked by the letter “X” on the figure below at (x = 4 ~m, y = 3...
Part 1.) A positive charge, q_1 = 5.75 nCq 1 =5.75nC , is located at...
Part 1.) A positive charge, q_1 = 5.75 nCq 1 =5.75nC , is
located at the origin (x = 0 ~m, y = 0 ~m)(x=0 m,y=0 m). A negative
charge, q_2 = 4.18 nCq 2 =4.18nC , is located on the x-axis at
(x = 4 ~m, y = 0 ~m)(x=4 m,y=0 m). Calculate the magnitude of the
electric field at the location marked by the letter “X” on the
figure below at (x = 4 ~m, y...
Consider the charge distribution illustrated below with a
positive charge q 1 and a negative charge q 2 , both having the
same magnitude q. Which of the arrows below best describes the
direction of the electric field at the point marked
"X" in the figure below. Note that the two charges
and the point X together form an equilateral triangle.
Consider the charge distribution illustrated below with a positive charge qi and a negative charge q2, both having the...
Point charge q_1 = +3.67 mu C is at point A (-37.2 cm, 0), and point charge q_2, carrying an equal and opposite charge, is at point B (+37.2 cm, 0). Find the magnitude of the electric field at the origin. Give the direction of the electric field at the origin. out of the page toward the negative charge toward the positive charge downward upward zero into the page An electron (q = 1.60 times 10^-19, m = 9.11 times...
A charge q_1 = 2.32 mu c is at a distance d = 1.43 m from a second charge q_2 = -6.07 mu c. (a) Find the electric potential at a point A between the two charges that is d/2 from q_1. Note that the location A in the diagram above is not to scale. V (b) Find a point between the two charges on the horizontal line where the electric potential is zero. (Enter your answer as measured from...
Positive point charge q_1 = +6.0 times 10^-9 C is at the origin and negative point charge q_2 = -4.0 times 10^-9 C is on the negative x-axis at x = -0.200 m. Point A is on the +x-axis at x = 0.100 m and point B is on the +x-axis at x = 0.300 m. How mu Ch work does the resultant electric field of q_1 and q_2 do on a third point charge q_3 = -5.0 times 10^-3...
Find the electric potential energy for the following array of charges: charge q_1 = +4.0 mu C is located at (x, y) = (0.0, 0.0) m: charge q_2 = +2.0 mu C is located at (4.0, 3.0) m: and charge q_3 = -1.0 mu C is located at (0.0, 3.0) m. mJ
Three charges are at the corners of an equilateral triangle, as shown in the figure below. Calculate the electric field at a point midway between the two charges on the X-axis (Let q_1 = 3.50 mu C, q_2 = 5.00 mu C, and q_3 = 7.50 mu c.)
A positive charge, q_1 = 7.93
nCq 1 =7.93nC , is located at the origin (x = 0 ~m, y = 0
~m)(x=0 m,y=0 m). A negative charge, q_2 = 4.50 nCq 2 =4.50nC ,
is located on the x-axis at (x = 4 ~m, y = 0 ~m)(x=4 m,y=0 m).
Calculate the magnitude of the electric field at the location
marked by the letter “X” on the figure below at (x = 4 ~m, y = 3...
Part 1.) A positive charge, q_1 = 5.75 nCq 1 =5.75nC , is
located at the origin (x = 0 ~m, y = 0 ~m)(x=0 m,y=0 m). A negative
charge, q_2 = 4.18 nCq 2 =4.18nC , is located on the x-axis at
(x = 4 ~m, y = 0 ~m)(x=4 m,y=0 m). Calculate the magnitude of the
electric field at the location marked by the letter “X” on the
figure below at (x = 4 ~m, y...
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