Difference between revisions of "19.2"
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10schrimpa (talk | contribs) (→'''Now we can start to find the ammeter values, voltages, and currents.''') |
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== '''Now we can start to find the ammeter values, voltages, and currents.''' == | == '''Now we can start to find the ammeter values, voltages, and currents.''' == | ||
| − | .. | + | <br> |
| + | To find A1: | ||
| + | <br> | ||
| + | We use the formula V/R | ||
| + | <br> | ||
| + | so,I = 45/14.75 | ||
| + | <br> | ||
| + | I = 3.0505 (which we should store in alpha F) | ||
| + | <br> | ||
| + | <br> | ||
Revision as of 16:05, 31 January 2010
To start we need to consolidate this circuit.
Follow the steps shown below
Step One: Combine 11 ohms and 13 ohms
To combine the two resistors... [(11^-1)+(13^-1)]^-1
the combined resistors equal 5.958 ohms and should be stored in alpha A
Step Two: Combine 3 ohms and A (5.958 ohms).
To combine the two resistors... 3+A
the combined resistors equal 8.958 ohms and should be stored in alpha B
Step Three: Combine 15 ohms and B (8.958 ohms).
To combine the two resistors... [(15^-1)+(B^-1)]^-1
the combined resistors equal 5.60869 ohms and should be stored in alpha C
Step Four: Combine 5 ohms and 7 ohms
To combine the two resistors... 5+7
the combined resistors equal 12 ohms (this numbered does not need to be stored)
Step Five: Combine 12 ohms and 9 ohms
To combine the two resistors... [(12^-1)+(9^-1)]^-1
the combined resistors equal 5.1428 ohms and should be stored in alpha D
Step Six: Combine 4 ohms, D, and C
To combine the three resistors... 4+C+D
the combined resistors equal 14.75 and should be stored in alpha E
Now we can start to find the ammeter values, voltages, and currents.
To find A1:
We use the formula V/R
so,I = 45/14.75
I = 3.0505 (which we should store in alpha F)
