Question

Two point charges of 7.01 x 10^{-9} C are situated in a
Cartesian coordinate system. One charge is at the origin while the
other is at (0.71, 0) m. What is the magnitude of the net electric
field at the location (0, 0.84) m?

Answer #1

Two point charges of 8.62 x 10-9 C are situated in a
Cartesian coordinate system. One charge is at the origin while the
other is at (0.81, 0) m. What is the magnitude of the net electric
field at the location (0, 0.73) m

A point charge of -9.00x10-9 C is located at the point (x,y) =
(0,3) meters on the y-axis, while a second point charge of
+6.00x10-9 C is located at the point (x,y) = (4,0) meters on the
x-axis.
(a) Calculate the total electric field (magnitude and direction)
that these point charges generate at the origin of the
xy-coordinate system.
(b) A third point charge of -2.00x10-9 C is now placed at the
origin of the xy-coordinate system while keeping the...

. A point charge q1 having
49µC is placed the origin of the cartesian coordinate system. Other
charges q2= 100µC at the point A and q3=
225µC at the point B are placed the points whose coordinates are A
(7,0) cm and B (16,12) cm, respectively. Show these point charges
in the on the coordinate system.
Find the net electric forces acting
on the charge in the point A. Give your answer as a unit vectors
and also find the...

A point charge is place at the origin of a cartesian coordinate
system. Another point charge is placed at the coordinates (0, -5.0
m), and a third charge is placed at (7.0 m, 0). If all three
particles have a charge of 3.0 C, find the magnitude of the net
force on the charge at (0, -5.0 m)
Please explain the steps in detail for me and write legibly.
Thank you.

A point charge is place at the origin of a cartesian coordinate
system. Another point charge is placed at the coordinates (0, -5.0
m), and a third charge is placed at (7.0 m, 0). If all three
particles have a charge of 3.0 C, find the direction (measured in
degrees from the negative x-axis) of the net force on the charge at
(0, -5.0 m).

Two positive point
charges are held fixed on the x-axis. Point charge
A is located at the origin, and point charge
B is located at the position x = −5.00 cm =
−5.00✕10-2 m (on the negative x-axis). The
magnitude of charge A is two times greater than
that of charge B: qA =
2qB.
ke = 8.9876✕109
Nm2/C2
(A.) The electric
force on charge A has magnitude 0.344 mN =
0.344⨯10-3 N. What is the electric force (magnitude
and...

Two
equal charges of 3.00 x 10^-6 C lie along the x-axis: one is at the
origin, and the other is 2.0 m from the origin. Find the magnitude
and direction of the electric field at a point on the y-axis 0.25 m
from the origin.

1. Consider two positive point charges on the x-axis of equal
charge, (7/3) x 10-9 C. One charge is placed at
x = -3.00 m and the other at x =
3.00 m. What is the electric potential at the midpoint between the
charges, x = 0 m?
2. Consider two positive point charges on the x-axis of equal
charge, (7/3) x 10-9 C. One charge is placed at
x = -3.00 m and the other at x =
3.00...

Two point charges,
q1=q1= 4.0×10-6 C and
q2=q2= -1.0×10-6 C,
are located on the x axis at x1 = -1.0 cm and
x2 = 3.0 cm.
(a) Determine the electric field at the origin.
b) Determine the x coordinate of a point on the positive x axis
where the electric field is zero; i.e., a test charge placed at
this point would experience no force.
(a) Determine the electric field at the origin.

1.
Three charges are fixed to an xy coordinate system. A charge of
+22C is on the y axis at y = +4.1 m. A charge of -14C is at the
origin. Lastly, a charge of +45C is on the x axis at x = +4.1 m.
Determine (a) the magnitude and (b) direction of the net
electrostatic force on the charge at x = +4.1 m. Specify the
direction as a positive angle relative to the +x axis.
(a)...

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