184_notes:examples:week7_charging_capacitor

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revision Previous revision
184_notes:examples:week7_charging_capacitor [2018/06/19 15:13] curdemma184_notes:examples:week7_charging_capacitor [2021/06/14 23:50] (current) schram45
Line 13: Line 13:
  
 ===Approximations & Assumptions=== ===Approximations & Assumptions===
-  * There are no other circuit elements (except for the wire). +  * There are no other circuit elements (except for the wire): This simplifies down the model, having resistors or other capacitors will change the graphs for a charging or discharging capacitor
-  * The wire itself has a small resistance, just so we do not have infinite current at $t=0$. +  * The wire itself has a small resistance: If the wires had no resistance then the current at $t=0$ would go to infinity by ohms law. This can be shown by solving ohms law for current in a circuit as the resistance approaches zero
-  * Practically speaking, the capacitor becomes "fully charged" (with respect to the potential of the battery) at some finite time.+  * Practically speaking, the capacitor becomes "fully charged" (with respect to the potential of the battery) at some finite time: The amount and time it takes for a capacitor to charge also depends on the circuit it is in and the voltage across it, this assumption simplifies down our graphs.
  
 ===Representations=== ===Representations===
  • 184_notes/examples/week7_charging_capacitor.1529421195.txt.gz
  • Last modified: 2018/06/19 15:13
  • by curdemma