COPCEPTS OHM'S LAW
Next we discuss in advance what the laws in force in the motorcycle's electrical system,
Ohm's Law describes the relationship between voltage (LV), a strong current (amperes) and resistance (R). The relationship between voltage (V), a strong current (I) and resistance (R) can be formulated as follows:
where:
V = voltage supplied to the circuit / circuits in Volts (V)
I = electric current flowing in the circuit in Amperes (A)
R = Roll on the circuit, in Ohms (Ω)
To explain the relationship of the three can be illustrated as shown below:
Next we discuss in advance what the laws in force in the motorcycle's electrical system,
Ohm's Law describes the relationship between voltage (LV), a strong current (amperes) and resistance (R). The relationship between voltage (V), a strong current (I) and resistance (R) can be formulated as follows:
V = voltage supplied to the circuit / circuits in Volts (V)
I = electric current flowing in the circuit in Amperes (A)
R = Roll on the circuit, in Ohms (Ω)
To explain the relationship of the three can be illustrated as shown below:
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Figure 1. The circuit to explain the principle of Ohm's Law
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At the time variable resistor positioned on low resistance values, the maximum current will flow. However, the voltage will decrease (shrink). At the time of maximum resistance values, a strong current flowing very small but increasing the voltage reaches a maximum.
From the above experiments it can be concluded that the amount of the voltage is inversely proportional to the current flowing strong. Or in other words, the greater the current flowing, the minimum working voltage on the track circuit and smaller (further away from the battery voltage / power source). The smaller current flowing, the maximum working voltage (perilously close to battery voltage / power source).
From the above experiments it can be concluded that the amount of the voltage is inversely proportional to the current flowing strong. Or in other words, the greater the current flowing, the minimum working voltage on the track circuit and smaller (further away from the battery voltage / power source). The smaller current flowing, the maximum working voltage (perilously close to battery voltage / power source).
Example Application of Ohm's Law on Motorcycles
Ohm's Law can be used to determine a voltage V, current I or the resistance R in the circuit / electrical circuit, such as the lighting circuit, charging system, ignition system and so on. Voltage, current and resistance can be determined without actual measurement, if known to the price of the other two factors.
a. This law can be used to determine the amount of current that
flowing in the circuit / circuit when a voltage V is applied to the custody of R. Ohm's Law formula used is:
Ohm's Law can be used to determine a voltage V, current I or the resistance R in the circuit / electrical circuit, such as the lighting circuit, charging system, ignition system and so on. Voltage, current and resistance can be determined without actual measurement, if known to the price of the other two factors.
a. This law can be used to determine the amount of current that
flowing in the circuit / circuit when a voltage V is applied to the custody of R. Ohm's Law formula used is:
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| Figure 2. Ohm's Law Formula |
Electrical current = voltage / resistance
b. This law can also be used to calculate the voltage V required for the current to flow through the detention R. I Ohm's Law formula used is:
b. This law can also be used to calculate the voltage V required for the current to flow through the detention R. I Ohm's Law formula used is:
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| Figure 3. Ohm's Lawa Formula Part II |
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