- Arts & Culture 6466
- Books in Foreign Languages 149
- Business & Economics 4476
- Computers 2198
- Dictionaries & Encyclopedias 635
- Education & Science 96964
- Abstracts 1173
- Astrology 12
- Astronomy 13
- Biology 34
- Chemistry 4129
- Coursework 4189
- Culture 30
- Diplomas 2584
- Drawings 1488
- Ecology 29
- Economy 342
- English 1173
- Entomology 2
- Ethics, Aesthetics 23
- For Education Students 26198
- Foreign Languages 117
- Geography 19
- Geology 17
- History 314
- Maps & Atlases 36
- Mathematics 14526
- Musical Literature 7
- Pedagogics 232
- Philosophy 190
- Physics 15878
- Political Science 126
- Practical Work 142
- Psychology 468
- Religion 45
- Russian and culture of speech 101
- School Textbooks 69
- Sexology 68
- Sociology 48
- Summaries, Cribs 723
- Tests 21050
- Textbooks for Colleges and Universities 531
- Theses 199
- To Help Graduate Students 23
- To Help the Entrant 114
- Vetting 429
- Works 58
- Информатика 15
- Engineering 3373
- Esoteric 951
- Fiction 3318
- For Children 382
- House, Family & Entertainment 2511
- Law 2789
- Medicine 1153
- Newspapers & Magazines 344
- Security 274
- Sport, Tourism 1000
- Website Promotion 654
Calculation branched chain sinusoidal current. Var.8
Uploaded: 14.08.2010
Content: jelektrotehnika_8.zip 181,73 kB
Product description
Verification work in electrical engineering.
Calculation branched chain sinusoidal current. Embodiment 8
Year: 2008
Task:
1. In the absence of inductive coupling between the coils to determine the currents in all branches of a given circuit; create a balance of active and reactive power; construct a vector diagram of currents and voltages topographic chart, as well as the curves of instantaneous values \u200b\u200bof EMF.
2. Taking into account the mutual inductance coils and the set values \u200b\u200bof the coupling coefficients, determine all the values \u200b\u200bof the current in the branches; construct a vector diagram of currents and voltages topographic chart.
The calculation of the required parameters (current, voltage, power, etc.) should be performed by a complex method for which all inputs (EMF, capacitive and inductive resistance) is recorded in the form of complex values.
In determining the currents in the first part of the calculation should use mesh analysis or nodal analysis.
The values \u200b\u200bof the circuit elements have the following meanings:
At Em1 = \u200b\u200b282,8, Em2 = 141,4 B φE1 = 0 φE2 = 300, R1 = 4 ohms, R2 = 3 ohms, R3 = 3 ohms, L1 = 0,95 mH, L2 = 1,27 mH , L3 = 1,9 mH C1 = 39.8 microfarads C2 = 31.8 uF, C3 = 26.5 uF coefficients of inductive coupling coils k12 = 0,7, k13 = 0, k23 = 0,6, frequency F = 500 Hz.
Additional information
The archive contains a file in Word. Formula typed in the formula editor Equation, graphics built in MathCad.