1. The specific heat capacity C,J/mol/°C] is often correlated to temperature T[°C] in form of a polynomial as C, = a + bT + cT² + dT³ Where a, b, c, and d are all empirical constants. For water under 500 kJ heat is provided to 10 mole air (79% nitrogen, 21% oxygen) at 20°C. Use the root-finding methods (bisection, false position, fixed point and Newton's method) to find out the final temperature of air. Which root-finding method shows the fastest convergence rate in this problem? Constants for oxygen: a = 29.1, b = 1.158 * 10-2, c = -0.6076 * 10-5, d = 1.311 * 10-9 Constants for nitrogen: a = 29, b = 0.2199 * 10-2, c = 0.5723 * 10-5, d = -2.871 * 10-9
1. The specific heat capacity C,J/mol/°C] is often correlated to temperature T[°C] in form of a polynomial as C, = a + bT + cT² + dT³ Where a, b, c, and d are all empirical constants. For water under 500 kJ heat is provided to 10 mole air (79% nitrogen, 21% oxygen) at 20°C. Use the root-finding methods (bisection, false position, fixed point and Newton's method) to find out the final temperature of air. Which root-finding method shows the fastest convergence rate in this problem? Constants for oxygen: a = 29.1, b = 1.158 * 10-2, c = -0.6076 * 10-5, d = 1.311 * 10-9 Constants for nitrogen: a = 29, b = 0.2199 * 10-2, c = 0.5723 * 10-5, d = -2.871 * 10-9
Algebra & Trigonometry with Analytic Geometry
13th Edition
ISBN:9781133382119
Author:Swokowski
Publisher:Swokowski
Chapter7: Analytic Trigonometry
Section7.6: The Inverse Trigonometric Functions
Problem 91E
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![1. The specific heat capacity C,J/mol/°C] is often correlated to temperature T[°C] in form
of a polynomial as
C, = a + bT + cT² + dT³
Where a, b, c, and d are all empirical constants. For water under
500 kJ heat is provided to 10 mole air (79% nitrogen, 21% oxygen) at 20°C. Use the root-finding
methods (bisection, false position, fixed point and Newton's method) to find out the final
temperature of air. Which root-finding method shows the fastest convergence rate in this
problem?
Constants for oxygen:
a = 29.1, b = 1.158 * 10-2, c = -0.6076 * 10-5, d = 1.311 * 10-9
Constants for nitrogen:
a = 29, b = 0.2199 * 10-2, c = 0.5723 * 10-5, d = -2.871 * 10-9](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F69b37de8-2e60-4b36-9a5e-4ef28a37dcde%2Fa67fce68-f52e-42bb-852e-5ed3df89c07b%2Fny9nh3.jpeg&w=3840&q=75)
Transcribed Image Text:1. The specific heat capacity C,J/mol/°C] is often correlated to temperature T[°C] in form
of a polynomial as
C, = a + bT + cT² + dT³
Where a, b, c, and d are all empirical constants. For water under
500 kJ heat is provided to 10 mole air (79% nitrogen, 21% oxygen) at 20°C. Use the root-finding
methods (bisection, false position, fixed point and Newton's method) to find out the final
temperature of air. Which root-finding method shows the fastest convergence rate in this
problem?
Constants for oxygen:
a = 29.1, b = 1.158 * 10-2, c = -0.6076 * 10-5, d = 1.311 * 10-9
Constants for nitrogen:
a = 29, b = 0.2199 * 10-2, c = 0.5723 * 10-5, d = -2.871 * 10-9
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