Week 5 – Productivity Tips, Final Project Brainstorming, Grading
No in-class worksheet today – though, as you’ll see, you’ll be discussing in groups quite a bit.
📖 Readings
✍️ Homework (due Sunday, May 7th)
Submit your answers on Gradescope
Part 1: Final Project Proposal
In class, we discussed the requirements for your Final Project. Submit a proposal of what you plan to create. Specifically, answer:
- What topic do you plan to create a supplemental resource? Why did you choose that topic in particular?
- What format (video, write-up, diagram, etc.) do you plan to create? Why did you choose that format?
Enter your answers in the Gradescope form above.
Part 2: Sample Grading
Before proceeding, make sure you’ve read the following two readings from Week 3:
In this part, you’ll grade a math solution, like the kinds you’d see in DSC 40A (in fact, it’s adapted from a real 40A homework problem from a few years ago). A rubric isn’t provided for you – you’ll have to create it yourself. To submit your work, answer the questions in the Gradescope form linked above.
You may wonder why you’re being asked to grade a math problem despite not tutoring for DSC 40A or DSC 40B. The answer is that the process of creating a rubric is quite similar regardless of the medium!
Suppose you’re operating a fruit stand near La Jolla Cove. Your stand only accepts cash, so you don’t have access to digital receipts of all of your transactions.
Part A (4 points)
You want to keep track of the mean transaction price so far during the day. Instead of writing down the price of each transaction and re-calculating the mean every time someone makes a purchase, you want to come up with a way to only keep track of the mean transaction price. Let \(x_i\) represent the price of the \(i\)th transaction (e.g. the 5th transaction of the day is \(x_5\)). We define \(\mu_n\) to be the mean of the first \(n\) transactions; that is, \(\mu_n = \frac{1}{n} \sum_{i=1}^n x_i\).
Determine a formula for \(\mu_{n+1}\) that only uses the variables \(\mu_n\), \(n\), and \(x_{n+1}\). (Hint: Start by writing out the definition of \(\mu_{n+1}\).)
Part B (1 point)
Why does the above result imply that you don’t need to store the values of all transactions individually?
Part C (2 points)
So far, you’ve sold 7 items and the mean transaction price (including the 7th item) is $12. How much would your next transaction price have to be in order for your new mean transaction price to be $14?
We’re not going to provide you with the solution or the rubric (though feel free to message on Slack if you’re unsure of the answer). What we have provided you with below are three (real) student solutions to all three parts. Your job is to create a rubric for all three parts and score all three submissions using your rubric. Specific formatting details are provided in the Gradescope submission form.
When crafting your rubric, you should assume that students are required to show their work, and not just provide an answer.
Student submission 1
Student submission 2
Student submission 3
Part 3: Mid-Quarter Survey
The last section of the Gradescope form above asks you to:
- Reflect on your experience as a tutor so far.
- Give us feedback on your experience in DSC 95 so far.
We appreciate your feedback!