- The diagram below shows the initial charges and positions of three identical metal spheres, X, Y, and Z, which have been placed on insulating stands. All three spheres are simultaneously brought into contact with each other and then returned to their original positions. +2 uC +4 με +6 µC Y. Which statement best describes the charge of the spheres after this procedure is completed? (1) All the spheres are neutral. (2) Each sphere has a net charge of +4 uµć. (3) Each sphere retains the same charge that it had originally. (4) Sphere Y has a greater charge than sphere X or sphere Z.

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please help with questions 11,12,13,14,15,16, and 17 all together please i’m so stressed please please
11. The diagram below shows the initial charges and
positions of three identical metal spheres, X, Y,
and Z, which have been placed on insulating
stands. All three spheres are simultaneously
brought into contact with each other and then
returned to their original positions.
tron
ally
d B.
+2 µC
+4 μC
+6 με
ch
ear a
Which statement best describes the charge
of the spheres after this procedure is
completed?
n of
(1) All the spheres are neutral.
(2) Each sphere has a net charge of +4 µC.
(3) Each sphere retains the same charge that it
had originally.
(4) Sphere Y has a greater charge than sphere X
or sphere Z.
12. Two oppositely charged metal spheres are
brought toward each other. Which graph
best represents the relationship between the
magnitude of the electrostatic force one sphere
exerts on the other sphere and the distance
between their centers?
ct?
ILIN
х.
Distance
Distance
Distance
O Distance
(1)
(2)
(3)
(4)
13. The electrostatic force of attraction between
two small spheres that are 1.0 meter apart is F.
If the distance between the spheres is decreased
to 0.5 meter, the electrostatic force will be
(1) 5
(3)
(2) 2F
(4) 4F
14. Two identical small spheres possessing charges
9, and q2 are separated by distance r. Which
change would produce the greatest increase in
the magnitude of the electrostatic force that
one sphere exerts on the other?
(1) doubling charge q,
(2) doubling r
(3) doubling r and charge q,
(4) doubling r and charges q, and q2
Electrostatic
Force
Electrostatic
Force
Transcribed Image Text:11. The diagram below shows the initial charges and positions of three identical metal spheres, X, Y, and Z, which have been placed on insulating stands. All three spheres are simultaneously brought into contact with each other and then returned to their original positions. tron ally d B. +2 µC +4 μC +6 με ch ear a Which statement best describes the charge of the spheres after this procedure is completed? n of (1) All the spheres are neutral. (2) Each sphere has a net charge of +4 µC. (3) Each sphere retains the same charge that it had originally. (4) Sphere Y has a greater charge than sphere X or sphere Z. 12. Two oppositely charged metal spheres are brought toward each other. Which graph best represents the relationship between the magnitude of the electrostatic force one sphere exerts on the other sphere and the distance between their centers? ct? ILIN х. Distance Distance Distance O Distance (1) (2) (3) (4) 13. The electrostatic force of attraction between two small spheres that are 1.0 meter apart is F. If the distance between the spheres is decreased to 0.5 meter, the electrostatic force will be (1) 5 (3) (2) 2F (4) 4F 14. Two identical small spheres possessing charges 9, and q2 are separated by distance r. Which change would produce the greatest increase in the magnitude of the electrostatic force that one sphere exerts on the other? (1) doubling charge q, (2) doubling r (3) doubling r and charge q, (4) doubling r and charges q, and q2 Electrostatic Force Electrostatic Force
15. The diagram below shows two metal spheres
suspended by strings and separated by a
distance of 3.0 meters. The charge on sphere A is
+5.0 x 10 4 coulomb, and the charge on sphere
B is +3.0 x 10 coulomb.
16. If the charge is doubled on each of two small
spheres having a fixed distance between their
centers, the magnitude of the electrostatic force
that one sphere exerts on the other willI be
(1) halved
(2) doubled
(3) quartered
(4) quadrupled
-3.0 m-
17. A point charge A of +3.0 x 10-7 coulomb is
placed 2.0 x 10 2 meter from a second point
charge B of +4.0 × 10 7 coulomb. Calculate
the magnitude of the electrostatic force that
charge A exerts on charge B.
B)
What forces does sphere A exert on sphere B?
(1) an attractive gravitational force and a
repulsive electrostatic force of 15 N
(2) an attractive gravitational force and a
repulsive electrostatic force of 45 N
(3) a repulsive gravitational force and an
attractive electrostatic force of 15 N
(4) a repulsive gravitational force and an
attractive electrostatic force of 45 N
Transcribed Image Text:15. The diagram below shows two metal spheres suspended by strings and separated by a distance of 3.0 meters. The charge on sphere A is +5.0 x 10 4 coulomb, and the charge on sphere B is +3.0 x 10 coulomb. 16. If the charge is doubled on each of two small spheres having a fixed distance between their centers, the magnitude of the electrostatic force that one sphere exerts on the other willI be (1) halved (2) doubled (3) quartered (4) quadrupled -3.0 m- 17. A point charge A of +3.0 x 10-7 coulomb is placed 2.0 x 10 2 meter from a second point charge B of +4.0 × 10 7 coulomb. Calculate the magnitude of the electrostatic force that charge A exerts on charge B. B) What forces does sphere A exert on sphere B? (1) an attractive gravitational force and a repulsive electrostatic force of 15 N (2) an attractive gravitational force and a repulsive electrostatic force of 45 N (3) a repulsive gravitational force and an attractive electrostatic force of 15 N (4) a repulsive gravitational force and an attractive electrostatic force of 45 N
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