2013 MOTORCYCLE ELECTRICAL: PARALLEL CIRCUIT

PARALLEL CIRCUIT

Hmmm ... Finally finished fifth article, this article is the cover article for this day, which is the subject of the continuation of the series of parallel electrical circuits, before I apologize to the viewers who come from overseas authors (the author is from INDONESIA), so most formulas in the post on my blog load Indonesian, this is because the column blogspot posts have not loaded the menu to create a formula like the microsoft office word, so my input on google to immediately update the column post on blogspot which makes menu to write the formula .. ^ _ ^
Type a parallel circuit connection is when two or more resistance (R1, R2, and R3, and so on) linked in a single circuit / circuit shown in Figure 1 below. One from each end of the resistance (resistor) is connected to the high voltage (positive) of the circuit and the other end connected to the lower (negative).

Figure 1. Parallel Circuit

In a parallel circuit, the voltage source (battery) V is the same on all resistance. While the amount of current I is equal to the sum of the currents I1, I2 and I3 are the currents flowing through each resistor R1, R2 and R3. The electric current formula, resistance and the voltage on the series circuit is as follows:
V total = V1 = V2 = V3
I total = I1 + I2 + I3
1 / R total = 1/R1 + 1/r2 + 1/r3
so that :

Strong current I flowing in R1, R2 and R3, can be calculated to be:

 Based on the example of figure 1 above the size of each resistance, strong currents and voltages can be calculated as follows:

Tahanan Total Means Total Of Resistance

The voltage on the sample image 3. 9 for each resistor in a parallel circuit is equal to the battery voltage, which is equal to 12 V.