Object AA, which has been charged to ++ 16 nCnC , is at the origin. Object BB, which has been charged to −− 28 nCnC , is at (x,y)=(0.0cm,2.0cm)
A)
What is the magnitude of the electric force on object AA?
Express your answer in newtons.
B)
What is the magnitude of the electric force on object BB?
Express your answer in newtons.
c)
What is the direction of the electric force on object AA?
What is the direction of the electric force on object ?
positive xx-axis |
positive yy-axis |
negative xx-axis |
negative yy-axis |
D)
What is the direction of the electric force on object BB?
What is the direction of the electric force on object ?
positive xx-axis |
positive yy-axis |
negative xx-axis |
negative yy-axis |
Object AA, which has been charged to ++ 16 nCnC , is at the origin. Object...
Object A, which has been charged to + 16 nC , is at the origin. Object B, which has been charged to − 20 nC , is at (x,y)=(0.0cm,2.0cm). What is the magnitude of the electric force on object A? What is the magnitude of the electric force on object B?
Object A, which has been charged to + 16 nC , is at the origin. Object B, which has been charged to − 26 nC , is at (x,y)=(0.0cm,2.0cm). What is the magnitude of the electric force on object A? What is the magnitude of the electric force on object B?
Object A, which has been charged to + 10 nC , is at the origin. Object B, which has been charged to − 30 nC , is at (x,y)=(0.0cm,2.0cm). What is the magnitude of the electric force on object A? What is the magnitude of the electric force on object B? What is the direction of the electric force on object A? What is the direction of the electric force on object B?
Object A is charged to + 16.2 nC and placed at the origin. Object B is charged to − 27.8 nC and placed at (x,y)=(0.0cm,2.0cm). What is the magnitude of the electric force on object A? What is the magnitude of the electric force on object B? What is the direction of the electric force on object A? What is the direction of the electric force on object B?
A charge of -2.50 nCnC is placed at the origin of an xyxy-coordinate system, and a charge of 2.10 nCnC is placed on the yy axis at yyy = 4.00 cmcm . a) If a third charge, of 5.00 nC , is now placed at the point x = 2.85 cm , y = 4.00 cm find the x and y components of the total force exerted on this charge by the other two charges. Enter your answers in newtons...
Object A, which has been charged to +10 nC, is at the origin. Object B, which has been charged to −20 nC, is at (x, y)=(0.0 cm, 2.0 cm). What are the magnitude and direction of the electric force on each object?
Object A, which has been charged to +10 nC, is at the origin. Object B, which has been charged to −20 nC, is at (x, y)=(1.0 cm, 2.0 cm). What are the magnitude and direction of the electric force on each object?
Object A, which has been charged to + 14 nC, is at the origin. Object B, which has been charged to - 26 nC, is at (x, y) = (0.0 cm, 2.0 cm). What is the magnitude of the electric force on object A? What is the magnitude of the electric force on object B?
Please help, thank you. 1. Object A, charged to +10nC, is placed at the origin of an x-y coordinate system. Object B, charged to -20nC is placed at the point with the coordinates (0.0cm, 2.0cm). Determine the electric force on each object. Write it in unit vector notation.
A -3.2 nCnC charge is on the xx-axis at x1x1x_1 = -9 cmcm and a 3.5 nCnC charge is on the xx-axis at x2x2x_2 = 12 cmcm . Part A At what point or points on the yy-axis is the electric potential zero? Express your answer using two significant figures. If there is more than one answer, separate them by a comma. yy = cmcm