Show work for full credit. **Include MultiSIM screenshots where indicated.**

- For the circuit below, solve for the following:
- R
_{T} - I
_{T}(pk), I_{T}(p-p), I_{T}(rms), I_{T}(avg) - Voltage drops across all individual resistors
- V
_{R1}(pk), V_{R1}(p-p), V_{R1}(rms), V_{R1}(avg) - V
_{R2}(pk), V_{R2}(p-p), V_{R2}(rms), V_{R2}(avg) - V
_{R3}(pk), V_{R3}(p-p), V_{R3}(rms), V_{R3}(avg) - Period of the source VT
**Capture screen-shot of V**_{R1}(p-p), V_{R2}(p-p), V_{R2}(p-p). Use Tektronix Oscilloscope in MultiSIM.

- V

- R
- For a fixed frequency of f= 500Hz and the values of C below, determine X
_{C}:- C = 1.0uF X
_{c}= ? - C = 0.5uF X
_{c}= ? - C = 0.2uF X
_{c}= ? - C = 0.1uF X
_{c}= ?

- C = 1.0uF X
- Determine the following:
- Xc
_{T}for two capacitors in series with the values Xc_{1}= 200ohms and Xc_{2}= 800ohms - Xc
_{EQ}for three capacitors in parallel with the values Xc_{1}= 200ohms, Xc_{2}= 800ohms and Xc_{3}= 1000ohms

- Xc
- For the circuits below, determine C
_{EQ}and C_{T}respectively: - For the circuit below, determine the following (express all answers in phasor form). No work equals no points.
**Include screenshot from MultiSIM for Single Frequency AC Analysis to confirm your calculations.** - Given an iron core with 500 turns, a length of 0.50m and an area of 2×10
^{-4}m^{2}, determine the inductance. - A 20:1 transformer has N
_{P}= 200, V_{P}= 220V and I_{P}= 4A. Determine N_{S}, V_{S}, and I_{s}. - Four inductors of values 5mH, 9mH, 15mH, and 17mH are connected in series. Determine the total inductance.
- Four inductors of values 5mH, 9mH, 15mH, and 17mH are connected in parallel. Determine the total equivalent inductance.
- Calculate the energy store in a 15mH inductor with a current of 5mA flowing through it.

**Submit your work in a document entitled EE115MidtermYourGID.docx, or an equivalent word processing file extension.**