A cubical tank (sides 2 meters) is filled with water to height 10. 0.2 m d H – -0.03 H². H(0) = 1.3 dt using the Taylor method of order 2 Hn+1 = H, + h f(H,) +5 f'(H,) Use the step size h = 0.2 and...

A cubical<br>tank (sides 2<br>meters) is filled<br>with water to height<br>10.<br>0.2 m<br>d H – -0.03 H².<br>H(0) = 1.3<br>dt<br>using the Taylor method of order 2<br>Hn+1 = H, + h f(H,) +5 f'(H,)<br>Use the step size h = 0.2 and recurse twice to generate H(0. 2) and H(0.4)<br>H = 1.3 m at t = 0. The water is drained through a circular hole with diameter<br>. Solve the<br>first degree differential equation<br>Use five decimal point accuracy.<br>

Extracted text: A cubical tank (sides 2 meters) is filled with water to height 10. 0.2 m d H – -0.03 H². H(0) = 1.3 dt using the Taylor method of order 2 Hn+1 = H, + h f(H,) +5 f'(H,) Use the step size h = 0.2 and recurse twice to generate H(0. 2) and H(0.4) H = 1.3 m at t = 0. The water is drained through a circular hole with diameter . Solve the first degree differential equation Use five decimal point accuracy.

Jun 05, 2022

SOLUTION.PDF

A cubical tank (sides 2 meters) is filled with water to height 10. 0.2 m d H – -0.03 H². H(0) = 1.3 dt using the Taylor method of order 2 Hn+1 = H, + h f(H,) +5 f'(H,) Use the step size h = 0.2 and...

Get Answer To This Question

Related Questions & Answers

Submit New Assignment