Differences
This shows you the differences between two versions of the page.
Both sides previous revision Previous revision Next revision | Previous revision | ||
184_projects:level_up_c [2022/02/17 20:27] – dmcpadden | 184_projects:level_up_c [2023/10/20 13:33] (current) – dmcpadden | ||
---|---|---|---|
Line 1: | Line 1: | ||
- | ===== Project | + | ===== Project: NASA Consult Test Part 2 ===== |
- | Lieutenant Maverick Mitchell | + | You've impressed |
=== Level 1: Basic Combos === | === Level 1: Basic Combos === | ||
Line 16: | Line 16: | ||
=== Level 2: Equal circuit elements === | === Level 2: Equal circuit elements === | ||
- | For the circuits below, say that $V_{bat} = 16 V$ and each resistor | + | For the circuits below, say that $V_{bat} = 16 V$ and each capacitor |
- | a) What is the equivalent capacitance of the circuit? | + | a) Which capacitors are in series? Which capacitors are in parallel? How do you know? |
+ | |||
+ | b) What is the equivalent capacitance of the circuit? | ||
- | b) Which capacitors are in series? Which capacitors are in parallel? How do you know? | ||
Line 26: | Line 27: | ||
- | === Level 3: Resistor | + | === Level 3: Capacitor |
For the circuits below, you have been given some of the quantities for various elements around the circuit. For example, $V_1$ would correspond to the voltage across Capacitor 1. For each circuit, | For the circuits below, you have been given some of the quantities for various elements around the circuit. For example, $V_1$ would correspond to the voltage across Capacitor 1. For each circuit, | ||
Line 44: | Line 45: | ||
Consider the circuit below where initially the capacitors are all uncharged. | Consider the circuit below where initially the capacitors are all uncharged. | ||
- | a) Initially, where is there current in the circuit? | + | a) Initially |
b) When the switch is closed, what is the initial current provided by the battery if $V_{bat} = 6V$, all resistors are $R = 1000 \Omega$, and all capacitors are $C = 2200 mF$? | b) When the switch is closed, what is the initial current provided by the battery if $V_{bat} = 6V$, all resistors are $R = 1000 \Omega$, and all capacitors are $C = 2200 mF$? | ||
Line 54: | Line 55: | ||
e) What is the final current provided by the battery? (After the switch has been closed for a long time.) | e) What is the final current provided by the battery? (After the switch has been closed for a long time.) | ||
- | f) If the switch is then opened again, what would you expect to happen? Explain in words. | + | f) When the switch has been closed for a long time, what is the voltage across each of the capacitors? |
+ | |||
+ | g) If the switch is then opened again, what would you expect to happen? Explain in words. | ||
{{ 184_notes: | {{ 184_notes: | ||
Line 60: | Line 63: | ||
<WRAP info> | <WRAP info> | ||
=== Learning Goals: === | === Learning Goals: === | ||
- | * Explain how you know something is in series. Explain what happens for current | + | * Explain how you know something is in series. Explain what happens for charge |
- | * Explain how you know something is in parallel. Explain what happens for current | + | * Explain how you know something is in parallel. Explain what happens for charge |
* Explain what the loop rule is and the physical principle it is related to. | * Explain what the loop rule is and the physical principle it is related to. | ||
* Explain what the node rule is and the physical principle it is related to. | * Explain what the node rule is and the physical principle it is related to. |