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MERSIN UNIVERSITY DIRECT CURRENT CIRCUIT ANALYSIS

Analysis of Direct Current Circuits, electronic components, comprehensive details on material calculations, formulas, fundamental circuit principles, sample schematics, simulations, and information on current, voltage, and electrical properties, along with extensive preparation information, are provided in this work by Harun TOPAK. Gratitude to those who contributed to the preparation of this material is acknowledged.

RESISTANCE, OHM LAW, BUSINESS AND POWER

In the contemporary era, we are deeply entrenched in the realm of electric energy. The predominant portion of our energy consumption is attributed to electricity. Our homes and workplaces are illuminated using this form of energy. Additionally, electric furnaces and stoves, efficiently converting electrical energy into heat, have become essential appliances due to their simplicity and cleanliness. Moreover, in recent years, air conditioners have gained prevalence in many regions, capitalizing on the ease of use and relatively lower electricity consumption when compared to electric stoves. Furthermore, electrical energy powers the operation of cutting-edge communication devices, showcasing its extensive utility in our modern lives.

Various devices such as radios, televisions, telephones, calculators, and computers exclusively rely on electricity for their operation. Electric motors play a vital role in generating mechanical energy for household appliances like vacuum cleaners, washing machines, and dishwashers. The compact size of electric motors, their ability to start and stop with a simple switch, lack of special maintenance requirements, and silent operation are key factors driving their use in home appliances. In the industrial sector, electricity finds extensive applications, thanks to the high efficiency of electrical machines, minimal losses, easy control, and straightforward structure, placing them at the forefront among other energy machines.

Another notable use of electrical energy is in induction furnaces, where heat energy is uniformly generated throughout the material being heated, ensuring even cooking or melting. For instance, bread baked in an induction furnace lacks a crust as all sides heat and cook simultaneously. Microwave ovens used in households also exemplify this application of electrical energy.

The most convenient form of energy for transportation to its intended destination is one that can be easily transformed into other types. Electricity generated in power plants exemplifies this characteristic, as it can be effortlessly transmitted over long distances to populated areas through transmission lines. Moreover, electricity can be readily converted into mechanical, heat, light, or chemical energies for various applications. It can be stored as chemical energy in accumulators, and even in small quantities, electric energy can be directly stored in capacitors.

  • Conductors, insulators and SEMICONDUCTOR
  • RESISTANCE TO PHYSICAL SIZE OF
  • RESISTANCE TO THE TEMPERATURE CHANGE OF
  • RESISTANCE OF COLOR CODES
  • RESISTANCE The OHM VALUE
  • STANDARD RESISTANCE VALUES OF
  • ELECTRICAL CIRCUITS and LAW OF
  • ELECTRICAL CIRCUITS AND STAFF OF
  • ELECTRIC CURRENT
  • CAPACITY, VOLTAGE, electromotive force
  • Resistance and Ohm’s Law
  • Ohm PRESENCE OF VOLTAGE WITH THE LAW OF THE
  • OHM LAW WITH RESISTANCE PRESENCE
  • OHM FINDING tHE FLOW wITH tHE LAW oF
  • CHARTS SHOWING tHE LAW of OHM
  • OHM LAW REGARDING tHE QUESTIONS aND SOLUTIONS
  • CURRENT and VOLTAGE DIRECTION

TESTS

1.11 resistor color codes with the direc The presence of VALUE
11.02 resistance Finding ohmmeter WITH Ohmic value
11.03 resistors serially connecting
11.04 resistors PARALELEL CONNECTING
11.05 resistors serine-PARALELEL CONNECTING
11.06 DC voltage measurement of
11.7 DC MEASURING CURRENT
11.8 SWITCHES OFF circuit, short circuit, open circuit
9.11 OHM LAW
11.10 MEASUREMENT
OF CURRENT AND VOLTAGE IN
SERIAL CIRCUIT 11.12 MEASURING CURRENT AND VOLTAGE IN PARALLEL CIRCUITING MEASURING CURRENT AND VOLTAGE
11.13 KİRŞOFUN VOLTAGE LAW
11.14 KİRŞOFUN CURRENT LAW
11.15 ELECTRIC POWER
11.16 VOLTAGE DIVIDERS
11.17 TIME CONNECTION, CURRENT AND VOLTAGE
11.18 DC VOLTAGE COIL

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