Two point charges Q1 = -2.85 nC and Q2 = 7.6 nC are shown in the figure. Q₁ is located at (-8.1 cm, 0.0 cm) while Q2 is at (0.0 cm, -7.6 cm). (A) Find the components (E, and Ey) for the electric field at (A) which is at the origin. E₂ = −3909.46 E, 11842.10 N (B) Find the magnitude and angle of the electric field vector E Note: Anglis are measured from the positive x-axis in the counter-clockwise direction. Ē 1 = 12470.73 0E = -71.73 degrees.
Two point charges Q1 = -2.85 nC and Q2 = 7.6 nC are shown in the figure. Q₁ is located at (-8.1 cm, 0.0 cm) while Q2 is at (0.0 cm, -7.6 cm). (A) Find the components (E, and Ey) for the electric field at (A) which is at the origin. E₂ = −3909.46 E, 11842.10 N (B) Find the magnitude and angle of the electric field vector E Note: Anglis are measured from the positive x-axis in the counter-clockwise direction. Ē 1 = 12470.73 0E = -71.73 degrees.
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Two point charges Q₁ = -2.85 nC and Q2 = 7.6 nC are shown in the figure. Q₁ is located at (-8.1 cm, 0.0 cm) while Q2 is at
(0.0 cm, -7.6 cm).
(A) Find the components (E, and Ey) for the electric field at (A) which is at the origin.
Ez = -3909.46
Ey = 11842.10
9₂
0E = -71.73
(B) Find the magnitude and angle of the electric field vector E
Note: Angls are measured from the positive x-axis in the counter-clockwise direction.
E = 12470.73
degrees.
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