Math, asked by VINSHUL, 3 months ago

A heater coil is rated 100W , 200V. It is cut into two identical parts. both parts are connected together in parallel to the same source of 200V. Calculate the energy liberated per second in the New combination.​

Answers

Answered by Anonymous
2

Step-by-step explanation:

P=100W

P=100WV=200V

P=100WV=200VP=

P=100WV=200VP= R

P=100WV=200VP= RV

P=100WV=200VP= RV 2

P=100WV=200VP= RV 2

P=100WV=200VP= RV 2

P=100WV=200VP= RV 2

P=100WV=200VP= RV 2 R=

P=100WV=200VP= RV 2 R= 400

P=100WV=200VP= RV 2 R= 400(200)

P=100WV=200VP= RV 2 R= 400(200) 2

P=100WV=200VP= RV 2 R= 400(200) 2

P=100WV=200VP= RV 2 R= 400(200) 2

P=100WV=200VP= RV 2 R= 400(200) 2 =100Ω

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 =

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 +

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 =

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t =

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′ =

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′ = 2

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′ = 2200

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′ = 2200

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′ = 2200 =100Ω

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′ = 2200 =100ΩNet Power=P=

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′ = 2200 =100ΩNet Power=P= RT

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′ = 2200 =100ΩNet Power=P= RTV

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′ = 2200 =100ΩNet Power=P= RTV 2

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′ = 2200 =100ΩNet Power=P= RTV 2

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′ = 2200 =100ΩNet Power=P= RTV 2

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′ = 2200 =100ΩNet Power=P= RTV 2 =

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′ = 2200 =100ΩNet Power=P= RTV 2 = 100

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′ = 2200 =100ΩNet Power=P= RTV 2 = 10040000

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′ = 2200 =100ΩNet Power=P= RTV 2 = 10040000

P=100WV=200VP= RV 2 R= 400(200) 2 =100ΩNet Resistance:R t 1 = R ′ 1 + R ′ 1 = R ′ 2 ⟹R t = 2R ′ = 2200 =100ΩNet Power=P= RTV 2 = 10040000 =400J

Answered by mansimishraaa594
1

Answer:

P=100W

V=200V

P=

R

V

2

R=

400

(200)

2

=100Ω

Net Resistance:

R

t

1

=

R

1

+

R

1

=

R

2

⟹R

t

=

2

R

=

2

200

=100Ω

Net Power=P=

RT

V

2

=

100

40000

=400J

Similar questions