# Banana Cake ## Instructions 1. Assume an action set of {add \, stir, bake, cool}. Draw a flowchart, using the paradigm discussed in class, to show the process of baking a banana cake. Use Google to find a typical list of ingredients. 2. Represent the flowchart from problem 1 as pseudocode. ## Flowchart ```d2 vars: { d2-config: { dark-theme-id: 200 layout-engine: elk } } grid-columns: 3 begin: { shape: oval # near: top-left } begin -> add 3c flour\ -> add 1 1/2 tsp baking soda\ -> add 1/2 tsp cinnamon\ -> add 1/2 tsp salt\ -> stir\ -> add 3 mashed bananas\ -> add 1 tsp lemon juice\ -> stir again\ -> add 3 eggs\ -> add 2tsp vanilla extract\ -> stir a final time\ -> bake @ 350f for 50 min\ -> let cool for 1 hour\ -> end end: { shape: oval # near: bottom-right } ``` ## Pseudocode ```c /************************************** * Function Title: BakeBananaCake * * Summary: Bake a banana cake * * Inputs: none * Outputs: none ************************************** * Pseudocode * * Begin * Add 3c flour * Add 1 1/2 tps baking soda * Add 1/2 tsp cinnamon * Add 1/2 tsp salt * Stir * Add 3 mashed bananas * Add 1 tsp lemon juice * Stir * Add 3 eggs * Add 2tsp vanilla extract * Stir a final time * Bake @ 350F for 50 min * Cool for 1 hour * End **************************************/ ``` # Walking ## Instructions 3. Assume an action set of {walk \ steps, turn to \ degrees}. Draw a flowchart showing a shady path and a sunny path to get from the west doors of the Engineering Building to the south-east doors of the TSC. Pick a meaningful “if” condition to select one of the two paths. Use real-world data in your design. 4. Represent the flowchart from problem 3 as pseudocode. %% Assuming a step distance of 2.5 feet. Sunny path: Total distance: 1922.59ft Shady path: 1710.76FT %% ## Flowchart ```d2 classes: { } beginning: {shape: oval} end: {shape: oval} ```