Handout 7
Cards (23)
- Kirchhoff's LawsDescribe current in a node and voltage around a loop
- Kirchhoff's Laws are the foundation of advanced circuit analysis
- NodeA junction where 2 or more elements connect
- Lines on a schematic represent perfect zero-resistance conductors, there is no rule that says lines from multiple elements are required to meet in a single point junction
- Distributed nodeA node represented as a distributed connection rather than a single point
- BranchConnections between nodes, an element (resistor, capacitor, source, etc.)
- The number of branches in a circuit is equal to the number of elements
- LoopAny closed path going through circuit elements
- A loop can visit (pass through) a node only one time
- Currents into a node1. Currents flowing into the node find some way to flow out on another branch2. We don't expect flowing charge to pile up inside the node
- Kirchhoff's Current LawThe sum of all currents flowing into a node equals the sum of currents flowing out of the node
- Solving a circuit using Ohm's Law1. Compute the current through the series circuit2. Compute the voltage across each resistor
- The sum of voltages across the resistors equals the source voltage
- Kirchhoff's Voltage LawThe sum of voltages around a loop is zero
- Kirchhoff's Voltage Law holds true for any loop in a circuit, regardless of the starting point or direction
- Gustav Kirchhoff - German Physicist who is known for Kirchhoff's Laws
- Kirchhoff's Law for current and voltage lie at the heart of circuit analysis.
- Kirchhoff's Current Law - the sum of all currents flowing into a node equals the sum of currents flowing out of the node.
- Kirchhoff's Current Law
- mA - SI unit for Kirchhoff's Current Law
- Kirchhoff's Voltage Law - The sum of voltages around the loop is zero.
- n - counts the element voltages around the loopA) n
- Kirchhoff's Voltage Law - The sum of voltage rises equals the sum of voltage drops around the loop