11. Find the Electric flux Pg if the Electric Field E with a value of 5.78 µC is contained in a conical container with a radius of 1.8 m and a height of 4.56 m 12. Find the resistance of a circuit runs with 190 µA and 122 nV 13. Find the Value of the point charge qo if it has a voltage of 5.13 V and electric potential energy of 4.35 x 10-5/ 14. Find the Charge of a point charge q if its Electric Field E has 12.1 N/C and a distance of 1,8 m

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15-18.5
11. Find the Electric flux Og if the Electric Field E with a value of 5.78 µC is contained
in a conical container with a radius of 1.8 m and a height of 4.56 m
12. Find the resistance of a circuit runs with 190 µA and 122 nV
13. Find the Value of the point charge qo if it has a voltage of 5.13 V and electric
potential energy of 4.35 x 10-5
+q
14. Find the Charge of a point charge q if its Electric Field E has 12.1 N/C and a distance
of 1.8 m
15.-18.5 What is the (A) total charge (Qtotal) and the charge on each capacitor of
the given series diagram? What is the (B) voltage across each capacitor?
18.5-20 What is the (A) total charge (Qtotal) and the charge on across each parallel
capacitor? (B)Prove the total Voltage of 300V using the formula of Capacitance
20 μF
THA
C₁
C₂
125 µV
10 μF
30 μF
C₂
-q
18.5-20
40 μF
C3
50 μF
C₂
60 µF
300 V
Transcribed Image Text:15-18.5 11. Find the Electric flux Og if the Electric Field E with a value of 5.78 µC is contained in a conical container with a radius of 1.8 m and a height of 4.56 m 12. Find the resistance of a circuit runs with 190 µA and 122 nV 13. Find the Value of the point charge qo if it has a voltage of 5.13 V and electric potential energy of 4.35 x 10-5 +q 14. Find the Charge of a point charge q if its Electric Field E has 12.1 N/C and a distance of 1.8 m 15.-18.5 What is the (A) total charge (Qtotal) and the charge on each capacitor of the given series diagram? What is the (B) voltage across each capacitor? 18.5-20 What is the (A) total charge (Qtotal) and the charge on across each parallel capacitor? (B)Prove the total Voltage of 300V using the formula of Capacitance 20 μF THA C₁ C₂ 125 µV 10 μF 30 μF C₂ -q 18.5-20 40 μF C3 50 μF C₂ 60 µF 300 V
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