CIRCUITO PARALELO – ENTENDA O COMPORTAMENTO DA TENSÃO E CORRENTE.

🎁 Products we recommend: 🔗 https://meli.la/2njVbpU __________________________________________________ Automate your electrical calculations with our spreadsheets: Link to purchase the Electrical Calculation Spreadsheet: https://hotm.art/ytd-planilha-calculo... Link to purchase the Load Schedule Calculation Spreadsheet: https://hotm.art/ytd-planilha-quadro-... Link to purchase the Electrical Plant Sizing Spreadsheet: https://hotm.art/ytd-planilha-plantas... __________ If you like the Eletricity channel and want to contribute to the generation of quality content, then access one of the options below: PIX KEY 👉 [email protected] QR CODE 👉 https://bit.ly/doacao-pix __________________________________________________ Receive content from Eletricity directly in your email! Register through the link below: 🔗 https://bit.ly/cadastro-eletricity __________________________________________________ 👇 Check out our content 👇 🔌 https://linktr.ee/Eletricity __________________________________________________ Let's learn the concepts about a parallel circuit? Read the description, it will help you improve your understanding of the subject: CONCEPT OF A PARALLEL CIRCUIT: A parallel circuit or parallel connection is the type of connection where there is more than one path for the electric current. An opening in the parallel circuit will not interrupt the path of the electric current, and only the electric load whose path of the electric current was interrupted will be disconnected. BEHAVIOR OF ELECTRIC CURRENT IN A PARALLEL CIRCUIT: In a parallel circuit or connection, the electric current will be different in each load. That is, the current that leaves the source and returns to the source will be the same, but along the way each load will have a different current value (Kirchhoff's law). Expanding the reasoning a little further: Imagine resistors (lamps connected in parallel). Every time I add another lamp to the circuit, the sum of the electrical resistances of the circuit will be smaller, and my total electric current will be greater. To summarize even further and facilitate understanding: the more resistance in parallel, the greater the total current required by the source to power these circuits. Here we are applying the basic Ohm's law. If you still have doubts, research Ohm's law and also Kirchhoff's law, which will help you understand. BEHAVIOR OF VOLTAGE IN A PARALLEL CIRCUIT: In a parallel circuit or connection, the electrical voltage will be the same throughout the circuit. That is, each electrical load will have the same voltage value as the source. Expanding the reasoning a little further: Imagine resistors (lamps connected in parallel). Every time I add another lamp to the circuit, the voltage applied to it will be the value of the source voltage; that is, regardless of the lamp's resistance, the value of the voltage applied to it will be the source voltage. Again, we are applying Ohm's law and Kirchhoff's basic law to illustrate the behavior of the voltages across each load. No matter how much load I add to the circuit, the voltage across the load will always be the source voltage. BEHAVIOR OF POWER IN A PARALLEL CIRCUIT: The power of each lamp will be the result of multiplying the voltage and current of the lamp. In this case, we can see that the lamp will operate at a power equal to its total power, and each time I add lamps (resistors) to the circuit, I will not interfere with the power of the other lamps. Remember that each time I add more lamps (resistors) to a parallel circuit, the resulting total current and power will be greater, resulting from the sum of the individual powers and currents. The power supply must have the capacity to supply these currents for the circuit to function correctly. I hope you enjoyed this video and see you next time. 💡 Stay tuned for #electricity 💡 __________________________________________________ 👇 Most Watched Videos: What they DIDN'T TELL YOU about the CONTROVERSY of the 3-PIN SOCKET. 🎥 https://bit.ly/2JE4P07 How to Make Curves and Level Changes in Cable Trays. 🎥 https://bit.ly/2ABlrk4 Higher Voltage, Lower Current: Truth or Myth? We Prove It For You (Part 1). 🎥 https://bit.ly/2xvtzRB Do You Know All the Functions of Wire Stripping Pliers? 🎥 https://bit.ly/2GD5Sun What's Best for Branching in Electrical Panels? We Tested It For You, See the Result. 🎥 https://bit.ly/2MDdrHl We Connected 3 Lamps in a Star Connection without Neutral. Does it Work? The Result is Impressive. 🎥 https://bit.ly/2BzUkH1