This shows you the differences between two versions of the page.
Both sides previous revisionPrevious revisionNext revision | Previous revision | ||
university:courses:engineering_discovery:lab_6 [03 Jan 2018 19:44] – [Observations and Conclusions] Doug Mercer | university:courses:engineering_discovery:lab_6 [04 Sep 2019 20:32] (current) – add alternate inductor options from kit Doug Mercer | ||
---|---|---|---|
Line 28: | Line 28: | ||
* (1) 0.1 μF capacitor (marked " | * (1) 0.1 μF capacitor (marked " | ||
* (1) 10 μF capacitor from the ADALP2000 Analog Parts Kit | * (1) 10 μF capacitor from the ADALP2000 Analog Parts Kit | ||
- | * (1) 100 μH inductor | + | * (1) inductor from the ADALP2000 Analog Parts Kit, either 100uH (marked 101), 1mH (102), 10mH (103) |
==== Procedure ==== | ==== Procedure ==== | ||
- Construct the following electromagnet circuit on the solderless breadboard{{ university: | - Construct the following electromagnet circuit on the solderless breadboard{{ university: | ||
- | - **Note that the 100 Ω resistors get very hot due to Joule heating, so avoid coming in contact with them** | + | - **Note that the 100 Ω resistors get very hot due to Joule heating, so avoid coming in contact with them** |
- Refer to the illustration below for one way to install the components in the solderless breadboard{{ university: | - Refer to the illustration below for one way to install the components in the solderless breadboard{{ university: | ||
- Add the following Hall effect sensor circuit to the solderless breadboard{{ university: | - Add the following Hall effect sensor circuit to the solderless breadboard{{ university: |