Mechanical engineers, as well as most other engineers, use thermodynamics extensively in their work. The following polynomial can be used to relate the zero-pressure specific heat of dry air cp kJ/(kg K) to temperature (K): C, = 0.99403 + 1.671 * 10-4 *T + 9.7215 * 10-8 * T2 - 9.5838 * 10-11 * T3 + 1.9520 * 10-14 * T4 Develop a plot of c, versus a range of T = 0 to 1200 K, and then use bisection to determine the temperature that corresponds to a specific heat of 1.1 kJ/(kg K).

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**Computer Applications in Analysis** **Homework 4 – Roots** *You will submit: (i) the source code (.m file), (ii) the screenshots that show the output.* Solve the task 5.19 from the textbook: Mechanical engineers, as well as most other engineers, use thermodynamics extensively in their work. The following polynomial can be used to relate the zero-pressure specific heat of dry air \( c_p \) kJ/(kg K) to temperature (K): \[ c_p = 0.99403 + 1.671 \times 10^{-4} \times T + 9.7215 \times 10^{-8} \times T^2 - 9.5838 \times 10^{-11} \times T^3 + 1.9520 \times 10^{-14} \times T^4 \] Develop a plot of \( c_p \) versus a range of \( T = 0 \) to \( 1200 \) K, and then use bisection to determine the temperature that corresponds to a specific heat of 1.1 kJ/(kg K).