Electrical Engineering: Basic Laws (2 of 31) Ohm's Law

Michel van Biezen

28 Oct 201502:24

Summary

TLDRThis video introduces one of the foundational principles in electrical circuit analysis—Ohm's Law. It explains the relationship between current, voltage, and resistance in a simple circuit, highlighting how current is determined by dividing the voltage by the resistance. The presenter uses an example where a 10-volt battery and a 2-ohm resistor result in a current of 5 amps. The concept of Ohm's Law is fundamental for understanding electric circuits and will be revisited frequently throughout the course, which is crucial for anyone studying electrical engineering.

Takeaways

⚡ Ohm's Law is a fundamental principle in circuit analysis, relating current, voltage, and resistance.
🔋 A simple circuit consists of a battery applying voltage, creating current flow from the positive to the negative terminal.
📐 Current flows due to the voltage pushing it, while resistance in the circuit opposes the current.
➗ Ohm's Law states that current (I) is equal to the ratio of voltage (V) to resistance (R): I = V / R.
🔌 In an example, if 10 volts is applied and the resistance is 2 ohms, the current is 5 amps.
⚖️ Amps (A) measure current, defined as 1 coulomb per second (charge per unit time).
⚠️ High current under high voltage conditions can be dangerous, but lower voltage with 5 amps is generally safer.
📏 Voltage is the force pushing current, while resistance resists this push, determining the flow of current.
📖 Understanding Ohm's Law is crucial for anyone studying electrical engineering or working with circuits.
👨‍🔬 The term 'amp' is named after the physicist André-Marie Ampère, who contributed to the understanding of electric current.

Q & A

What is Ohm's Law?
-Ohm's Law is a fundamental principle in circuit analysis, stating that the current flowing through a circuit is equal to the voltage applied to the circuit divided by the resistance within the circuit.
What does Ohm's Law describe?
-Ohm's Law describes the relationship between current, voltage, and resistance in an electrical circuit.
How does a battery contribute to current flow in a circuit?
-A battery applies voltage to the circuit, with the positive side pushing current through the circuit toward the negative side, thus generating current flow.
What happens when current encounters resistance in a circuit?
-The resistance in the circuit opposes the current flow. According to Ohm's Law, the current is equal to the voltage divided by the resistance, so higher resistance leads to lower current.
Can you provide an example calculation using Ohm's Law?
-Yes, if a voltage of 10 volts is applied to a circuit with 2 ohms of resistance, the current is calculated as I = 10V / 2Ω = 5 amps.
What is an ampere (amp), and how is it defined?
-An ampere, or amp, is the unit of current. It is defined as the flow of 1 coulomb of charge per second. In the example given, 5 amps means 5 coulombs of charge are flowing per second.
Why can high current be dangerous under certain conditions?
-High current, especially under high voltage conditions, can be dangerous to humans because large amounts of charge flow through the body, which can cause injury or death.
What is the formula for calculating current using Ohm's Law?
-The formula for calculating current (I) using Ohm's Law is: I = V / R, where V is the voltage and R is the resistance.
What does the term 'amps' come from?
-The term 'amps' is derived from the name of the physicist André-Marie Ampère, who contributed to the understanding of current flow.
Why is Ohm's Law important in electrical engineering?
-Ohm's Law is a foundational concept in electrical engineering that helps in analyzing and designing circuits by determining the relationships between voltage, current, and resistance.