Question

a uniformily charged conductivity sphere of 2.4m diameter has a surface charge density of 80 microcoloumb per meter square find the charge on the sphere what is the total electric flux leaving the surface of the sphere

​

Answer 1

Explanation:

(a)

d=2.4m

r=1.2m

Surface charge density, σ=80.0μC/m

2

=80×10

−6

C/m

2

Total charge on surface of sphere,

Q= Charge density × Surface area

=σ×4πr

2

=80×10

−6

×4×3.14×(1.2)

2

=1.447×10

−3

C

Therefore, the charge on the sphere is 1.447×10

−3

C.

(b)

ϕ

total

=

∈

0

Q

∈

0

=8.854×10

−12

N

−1

C

2

m

−2

Q=1.447×10

−3

C

ϕ

total

=

8.854×106−12

1.44×10

−3

=1.63×10

8

NC

−1

m

2

Therefore, the total electric flux leaving the surface of the sphere is 1.63×10

8

NC

−1

m

2

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