Problem2: The height of a small rocket y can be calculated as a function of time after blastoff with the following piecewise function: y = 38.1454t +0.137431³ y = 1036 + 130.909(t-15) + 6.18425 (t-15)² -0.428(1-15)³ y = 2900-62.468 (t−33) — 16.9274(1-33)² +0.41796(1-33)³ 0 ≤ t < 15 15 < t < 33 t> 33 Develop a well-structured pseudocode function to compute y as a function of t. Note that if the user enters a negative value of t or if the rocket has hit the ground (y = 0) then return a value of zero for y. Draw a flowchart for this and provide a pseudocode. Do it by hand.

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Problem2: The height of a small rocket y can be calculated as a function of time after blastoff with the following piecewise function: y = 38.1454t+ 0.13743t³ y = 1036 + 130.909(t - 15) + 6.18425 (t-15)² -0.428(t-15)³ y = 2900 - 62.468 (t−33) — 16.9274(t-33)² +0.41796(t-33)³ 0 ≤ t < 15 15 ≤ t < 33 t> 33 Develop a well-structured pseudocode function to compute y as a function of t. Note that if the user enters a negative value of t or if the rocket has hit the ground (y = 0) then return a value of zero for y. Draw a flowchart for this and provide a pseudocode. Do it by hand.