Complex Number RLC Series Parallel Voltage and Current Supply

badsanta010 · Jul 1, 2012

Hi Everyone.

I have been looking at this questions for a while now and have just hit a brick wall.

I have found the source impedances using the the following

Z of Current source = 1KΩ - jXC

=1000 - j4000Ω = 4123<-75.96°

Z of Voltage source = 4KΩ + jXL

= 4000 + j1000Ω = 4123<14.04°

Correct ?

But from here I am not sure how to approach determining the current I2.

Any kind of guidance would be greatly appreciated.

Thanks

lazyaditya · Jul 1, 2012

how did you got your value for Xc ?

lazyaditya · Jul 1, 2012

Plus ! you can use KVL in the loop having voltage source !

badsanta010 · Jul 2, 2012

lazyaditya said:

how did you got your value for Xc ?

Using the following formula:

1/jwC

=1/j(25K rads/sec)(10nF)

Thanks

lazyaditya · Jul 2, 2012

shouldn't the angular frequency should be converted into hz ?

badsanta010 · Jul 2, 2012

I could'nt be sure but I assumse that when the formula states Omega it uses its standard form.

lazyaditya · Jul 2, 2012

i think we need to convert it !

Complex Number RLC Series Parallel Voltage and Current Supply

Attachments

1. What is a complex number RLC series parallel voltage and current supply?

2. What is the purpose of using a complex number in this type of circuit?

3. How is the voltage and current calculated in a complex number RLC series parallel circuit?

4. What are the advantages of using a complex number RLC series parallel circuit?

5. How is a complex number RLC series parallel circuit different from a simple RLC circuit?

Similar threads

Hot Threads

Recent Insights