Direct Current Circuit Analysis, electronic components, detailed information about materials calculations formulas basic circuit laws sample schematics simulations current, voltage, electrical information and information on a lot of information about the preparation: Harun TOPAK Thanks to people who prepared the work.
RESISTANCE, OHM LAW, BUSINESS AND POWER
ELECTRIC ENERGY AND FEATURES Today we live in the electric age. Most of the energy we use is electrical energy. We use electrical energy in the houses and work places for lighting. Again, electric furnaces and stoves, which can easily turn electrical energy into heat energy, have become indispensable due to the simple and cleanliness of its use. In most of our region, air conditioners have taken their places in the last years by taking advantage of electricity energy which is easy to use and electricity consumption compared to electric cookers. Electrical energy is used in the operation of the most advanced communication devices.
Many devices such as radio, television, telephones, calculators and computers do not work with any other type of energy than electricity. The use of electric motors is indispensable in obtaining mechanical energy in households, brooms, washing machines, dishwashers and many other small appliances. The fact that electric motors can be made smaller than other motors and that it is possible to start and stop with a simple switch, no special maintenance and silent operation are the most important reasons for the use of electrical energy in home appliances. The places where electricity is used in industry are too many to be counted.
The high efficiency of the electrical machines, the minimum loss, the ease of the controls and the simplicity of their structure, led them to take the front row along with other energy machines. Another application of heat effect of electrical energy is induction furnaces. In these furnaces, the heat energy is generated at the same amount in all parts of the material to be heated, so it can be cooked or melted at the same time. For example, the bread cooked in an induction furnace does not form a crust since all sides heat and cook at the same time. We can also give examples of microwave ovens used in these houses.
The most suitable energy, which can be taken to the place where it is used, is the energy that is the easiest to convert to other types. The electrical energy produced in power plants can be easily transmitted to the settlement centers thousands of kilometers away by transmission lines. It is easily converted to mechanical, heat or light and chemical energies for the purpose of use. Electrical energy can be stored in accumulators as chemical energy, but even if small, electric energy can be stored directly 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
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
and a lot more information ve
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
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