Kirchhoff’s Loop Rule and Junction Rule
Describe a circuit or elements of a circuit by applying Kirchhoff’s loop rule.
- Energy changes in simple electrical circuits may be represented in terms of charges moving through electric potential differences within circuit elements. Relevant equation:
- Kirchhoff’s loop rule is a consequence of the conservation of energy.
- Kirchhoff’s loop rule states that the sum of potential differences across all circuit elements in a single closed loop must equal zero. Relevant equation:
- The values of electric potential at points in a circuit can be represented by a graph of electric potential as a function of position within a loop.
Describe a circuit or elements of a circuit by applying Kirchhoff’s junction rule.
- Kirchhoff’s junction rule is a consequence of the conservation of electric charge.
- Kirchhoff’s junction rule states that the total amount of charge entering a junction per unit time must equal the total amount of charge exiting that junction per unit time. Relevant equation:
d0O-KUKP4nM
Wlm4pBEXl2Q
OYerdzZPSI0
Bt6V7D5av9A
FycpaADfdi0
F83mC-nq5HQ
lsqIyTAGJnA
More videos
vuCJP_5KOlI
S9fMd1cH9ik
pjXEGe7y6HU
_SWqbzcQtyo
0gRtVz4XrZM
affa61AME68
paDs-Hnmklo
Rgl4OAm9tnU
SKdK_L4jbV0
DAjn1tG2LjU
xQbzBEq14MU
7ztIL4W6O1o
iY9OqWvB744
il2Sgfs7YGg
wCtZTga7yc4
IK4Wvot_UwI
8rDTX2mHoV0
Z2QDXjG2ynU
dgkaE7eiY5w
Q39xQUlTGew
6F_rmZ1nXFQ
2Zu3ppq3n8I
More videos
RkZcAFXrl5M
EZf37UuruEI
F4n4dhhYkuI
m-0CjRahgn8
On-nopsFeEY
Simulation page: Circuit Construction Kit: DC