Ohm's Law is that Voltage Drop = Current x Resistance. So Current = Voltage Drop/Resistance.
In this case Current = 1.5/1000 amps, or 1.5 milliamps
V = I times R.
R = 1 ohm and I = 1.5 amps.
Voltage V = 1.5 ohms
According to Ohm's law(V=IR) . I think 0.25 Ampere.
Depends on the voltage and will vary according to Ohm's law(Voltage / Resistance = Amperes)
V = (I) x (R) = 2 x 12 = 24 volts
A resistor is a component of an electrical circuit that resists the flow of electrical current. A resistor has two terminals across which electricity must pass, and is designed to drop the voltage of the current as it flows from one terminal to the next. A resistor is primarily used to create and maintain a known safe current within an electrical component.
it is made of tungsten and is a resistor when current flows thru it it heats up and glows
An electric current contains energy; so does an electric field. When a current flows through a resistor, part of the electrical energy will be wasted - i.e., converted to heat. You can think of this as if some of the electrons crash into atoms, instead of continuing on their way.
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Current flows in loops, voltage drops across elements. With relation to current, what flows in, must flow out, so no, current is not dropped across a resistor, it flows through a resistor and voltage is dropped across the resistor.
Voltage is impressed across a circuit. Current flows through a circuit.
No. If a voltage is applied across a resistor, a current flows through it.
9 ohms
Normally through the resistor's internal construction. It flows through any part of the resistor that has low resistance- be it anywere. And then there's this. It might be that one should consider that current flows through a resistor and voltage is dropped across a resistor. Perhaps this is where the question began. The former is fairly straight forward. The latter can be vexing. Voltage is said to be dropped across a resistor when current is flowing through it. The voltage drop may be also considered as the voltage measureable across that resistor or the voltage "felt" by that resistor. It's as if that resistor was in a circuit by itself and hooked up to a battery of that equivalent voltage.
33V
V = (I) x (R) = 2 x 12 = 24 volts
Use Ohm's Law, i.e., V=IR here, V=voltage I=current R=resistance
A resistor is a component of an electrical circuit that resists the flow of electrical current. A resistor has two terminals across which electricity must pass, and is designed to drop the voltage of the current as it flows from one terminal to the next. A resistor is primarily used to create and maintain a known safe current within an electrical component.
A resistor is bi-directional meaning current can flow in either direction. Current flows from positive to negative.
The answer is 6 ohms x 3 amps which is 18 v.
No current flows when the the voltage is zero.