Needed to be solve whole question correctly it's single question with related part's Please solve whole and get thumbs up Three charges (q1 = 5.9 µC, q2 =-4.2 µC, and q3 = 3.7µC) are locatedat the vertices of an equilateral triangle with side d= 9.6 cm as93shown9)7) What is F3 x, the value of the x-component of the net force on q3?N8) What is F3 v, the value of the y-component of the net force on q3?N9)A charge q4 = 3.7 µC is now added as shown.What is F2x, the x-component of the new net force on q2?N10) What is F, v, the y-component of the new net force on q,?N2/27/22, 7:51 PM11) What is F1 x, the x-component of the new net force on q ?N12) How would you change q (keeping q2.93 and q4 fixed) in order to make the net force on q2 equal to zero?a. Increase its magnitude and change its signb. Decrease its magnitude and change its signc. Increase its magnitude and keep its sign the samed. Decrease its magnitude and keep its sign the samee. There is no change you can make to q that will result in the fet force on q2 being equal to zero.

The magnitude of the charges are given as, q1=+5.9 μC=+5.9×10-6 C, q2=-4.2 μC=-4.2×10-6 C, q3=+3.7…

Three charges (q1 = 5.9 µC, 92 = -4.2 µC, and q3 = 3.7µC) are located at the vertices of an equilateral triangle with side d= 9.6 cm as shown. ..... 7) What is F3 x, the value of the x-component of the net force on q3? N 8) What is F3 y, the value of the y-component of the net force on q3? N 9) (92 A charge q4 = 3.7 µC is now added as shown. What is F2x, the x-component of the new net force on q2? N 10) What is F2 y, the y-component of the new net force on q2? 2/27/22, 7:51 PM 11) What is F x, the x-component of the new net force on q ? N 12) How would you change q, (keeping q2,93 and q4 fixed) in order to make the net force on q2 equal to zero? a. Increase its magnitude and change its sign b. Decrease its magnitude and change its sign c. Increase its magnitude and keep its sign the same d. Decrease its magnitude and keep its sign the same e. There is no change you can make to q, that will result in the fet force on q, being equal to zero.

Three charges (q1 = 5.9 µC, 92 = -4.2 µC, and q3 = 3.7µC) are located at the vertices of an equilateral triangle with side d= 9.6 cm as shown. ..... 7) What is F3 x, the value of the x-component of the net force on q3? N 8) What is F3 y, the value of the y-component of the net force on q3? N 9) (92 A charge q4 = 3.7 µC is now added as shown. What is F2x, the x-component of the new net force on q2? N 10) What is F2 y, the y-component of the new net force on q2? 2/27/22, 7:51 PM 11) What is F x, the x-component of the new net force on q ? N 12) How would you change q, (keeping q2,93 and q4 fixed) in order to make the net force on q2 equal to zero? a. Increase its magnitude and change its sign b. Decrease its magnitude and change its sign c. Increase its magnitude and keep its sign the same d. Decrease its magnitude and keep its sign the same e. There is no change you can make to q, that will result in the fet force on q, being equal to zero.

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Question

Needed to be solve whole question correctly it's single question with related part's Please solve whole and get thumbs up

Three charges (q1 = 5.9 µC, q2 =-4.2 µC, and q3 = 3.7µC) are located
at the vertices of an equilateral triangle with side d= 9.6 cm as
93
shown
9)
7) What is F3 x, the value of the x-component of the net force on q3?
N
8) What is F3 v, the value of the y-component of the net force on q3?
N
9)
A charge q4 = 3.7 µC is now added as shown.
What is F2x, the x-component of the new net force on q2?
N
10) What is F, v, the y-component of the new net force on q,?
N
2/27/22, 7:51 PM
11) What is F1 x, the x-component of the new net force on q ?
N
12) How would you change q (keeping q2.93 and q4 fixed) in order to make the net force on q2 equal to zero?
a. Increase its magnitude and change its sign
b. Decrease its magnitude and change its sign
c. Increase its magnitude and keep its sign the same
d. Decrease its magnitude and keep its sign the same
e. There is no change you can make to q that will result in the fet force on q2 being equal to zero.

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