Q1 (a) To identify how much heat is required to bring a kettle of water to its boiling point, you are required to calculate the specific heat of water at 61°C. The specific heat of water is given as a...


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Q1 (a)<br>To identify how much heat is required to bring a kettle of water to its boiling point,<br>you are required to calculate the specific heat of water at 61°C. The specific heat of<br>water is given as a function of time in Table Q1(a).<br>Table Q1(a): Specific heat of water as a function of temperature<br>Temperature, T Specific heat, C,<br>(C)<br>J<br>kg-°C )<br>42<br>4179<br>52<br>4186<br>82<br>4199<br>100<br>4217<br>110<br>4300<br>(i)<br>Determine the value of the specific heat at T = 61°C using a second order<br>Lagrange polynomial.<br>(ii)<br>Determine the value of the specific heat at T = 61°C using a third order<br>Lagrange polynomial.<br>Find the absolute relative approximate error e, obtained between the results<br>from the second with third order polynomial.<br>(iii)<br>

Extracted text: Q1 (a) To identify how much heat is required to bring a kettle of water to its boiling point, you are required to calculate the specific heat of water at 61°C. The specific heat of water is given as a function of time in Table Q1(a). Table Q1(a): Specific heat of water as a function of temperature Temperature, T Specific heat, C, (C) J kg-°C ) 42 4179 52 4186 82 4199 100 4217 110 4300 (i) Determine the value of the specific heat at T = 61°C using a second order Lagrange polynomial. (ii) Determine the value of the specific heat at T = 61°C using a third order Lagrange polynomial. Find the absolute relative approximate error e, obtained between the results from the second with third order polynomial. (iii)

Jun 04, 2022
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