184_projects:level_up_r_24

Differences

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

Link to this comparison view

Both sides previous revision Previous revision
Next revision		 Previous revision
184_projects:level_up_r_24 [2024/01/18 18:10] tdeyoung184_projects:level_up_r_24 [2024/02/14 22:02] (current) tdeyoung
Line 1: Line 1:
 ===== Project: Circuit Test Part 1 ===== ===== Project: Circuit Test Part 1 =====
  
-Your boss has been impressed by your work at FTOE, but she thinks the lab needs to hire additional staff.  Someone named Solomon Tobb has applied for the position, but she's unsure of his qualifications.  She's written up a screening test to evaluate his knowledge of circuit analysis, but she didn't have time to write the answer key so she's asked you to do it.  The test has several levels, and she'd like you to complete as much of the solution key as you can.+==== Kick Off Questions ==== 
 +  - What are the loop & node rules? What physical principles do they relate to? 
 +  - The equation for power can be written in 3 different ways - what are the 3 ways & how do you get them? 
 +  - Conceptually, what is current? Why do we usually say "current through a resistor"? 
 +  - Conceptually, what is voltage? Why do we usually say "voltage across a resistor"? 
 + 
 + 
 +==== Main Problem ==== 
 + 
 +Your boss thinks FTOE needs to hire additional staff in order to get the hawkion accelerator working again.  Someone named Solomon Tobb has applied for a job, but she's unsure of his qualifications.  She's written up a screening test to evaluate his knowledge of circuit analysis, but she didn't have time to write the answer key so she's asked you to do it.  The test has several levels, and she'd like you to complete as much of the solution key as you can.
  
 === Level 1: Basic Combos === === Level 1: Basic Combos ===
-For the circuits below, say that $V_{bat} = 5 V$, $R_1 = 2 \Omega$, $R_2 = 3 \Omega$, and $R_3 = 4 \Omega$. For each circuit below,+For the circuits below, say that $V_{bat} = 5 \;{\rm V}$, $R_1 = 2 \;\Omega$, $R_2 = 3 \;\Omega$, and $R_3 = 4 \; \Omega$. For each circuit below,
  
 a) What is the equivalent resistance of the circuit? a) What is the equivalent resistance of the circuit?
Line 68: Line 77:
 </WRAP>  </WRAP> 
  
-Conceptual Questions:+==== Wrap Up Questions ====
   - What are the circuit rules that you used to solve these circuits? When did you use each of them?   - What are the circuit rules that you used to solve these circuits? When did you use each of them?
   - How do you know if something is in series or parallel (or neither)? What happens to current & voltage in each of those cases?   - How do you know if something is in series or parallel (or neither)? What happens to current & voltage in each of those cases?
-  - What are the loop & node rules? What physical principles do they relate to? 
-  - The equation for power can be written in 3 different ways - what are the 3 ways & how do you get them? 
   - What assumptions did you make when solving these circuits? (Hint: there are at least 3 big ones.)   - What assumptions did you make when solving these circuits? (Hint: there are at least 3 big ones.)
 +  - What order of magnitude is "normal" for voltage? (In other words, what are typical voltages you would encounter in the real world?)
 +  - What order of magnitude is "normal" for current? (In other words, what are typical currents you would encounter in the real world?)
 +  - What order of magnitude is "normal" for power? (In other words, what are typical powers you would encounter in the real world?)
 +
  • 184_projects/level_up_r_24.1705601418.txt.gz
  • Last modified: 2024/01/18 18:10
  • by tdeyoung