The following polynomial can be used to relate the zero-pressure specific heat of dry air cp kJ/(kg K) to temperature (K): Cp= 0.99403 +1.671×10 4T + 9.7215×10-8T2-9.5838×10 11 T3+1.9520×10-14T4 (a) Develop a plot of cp versus a range of T=0 to 1200 K. (b) Use bisection to determine the temperature T that corresponds to a specific heat of 1.1 kJ/(kg K). (c) What will be the value of T if you use false position method? (d) What is the percentage error between the results of (b) and (c)? For both methods use maximum iteration number 50.

Please do not copy other's work

Please do not copy other's work

You need to show at least 3 iterations calculated manually with all steps.

You need to show at least 3 iterations calculated manually with all steps.

You need to show at least 3 iterations calculated manually with all steps.

I will be very very appreciate!!

 

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For all the following problems, a) b) 4. You need to show at least 3 iterations calculated manually with all steps. You do not need to include the M.files for the bisection method (bisect.m) and for false position (falspos.m). You must, however, show the command lines for the given functions with their variables and other parameters. Zero-pressure specific heat of dry air 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): Cp = 0.99403 + 1.671×10 7 + 9.7215×10-8T²-9.5838×10-11 T3+1.9520×10-14T4 (a) Develop a plot of cp versus a range of T=0 to 1200 K. (b) Use bisection to determine the temperature T that corresponds to a specific heat of 1.1 kJ/(kg K). (c) What will be the value of T'if you use false position method? (d) What is the percentage error between the results of (b) and (c)? For both methods use maximum iteration number 50.