Numerical methods Adams Boundary value problem Cubic spline Discretization Evalu

Question

Numerical methods

Adams

Boundary value problem

Cubic spline

Discretization

Evaluation

Fehlberg

Gauss

Hexadecimal

Initial value problem

Junction

Knots

Least squares

Minimax

Non-automous

Ordinary differential equation

Pseudo-random numbers

Quasilinearization

Runge-Kutta

Shooting

Taylor series

Urabe

Variables

Wings

X-axis

Y-axis

Zero

Enter the appropriate term (from the above list) in the following blanks:

A __cubic spline___ can be used to approximate the value(s) of a function between a set of points (called __knots___) where the values of the function are known or given.

A famous numerical analyst named __________ developed special _________________ methods for solving differential equations. The methods allow for the estimation of the local truncation error.

A ___________________________ has a differential equation and a boundary condition.

The method of _____________________ can be used to approximate a set of noisy data such that the squares of the errors are minimized.

The _________ method is often the most efficient method for solving an ordinary differential equation subject to initial conditions when the derivatives are very expensive to evaluate and a fixed stepsize is a reasonable choice.

A _______________ method (for solving two-point boundary-value problems) is a method in which each iteration requires the solution of an initial value problem.

The “E” in the term “PECE algorithm” refers to an ___________________________________.

A Monte-Carlo simulation normally makes use of   _____________________________________.

____ 13. Which of the following requires the solution of non-linear algebraic equations in order to

determine the coefficients of the method?

a. A high-order Runge-Kutta method    

b. Adams-Bashforth-Adams-Moulton method

c. Taylor series method

d. An extrapolation method

_______ 14. Which of the following is most likely to suffer from numerical instability?

a. A tenth-order Runge-Kutta method

b. A tenth -order Adams-Bashforth-Adams-Moulton method

c. A tenth -order Taylor series method

d. Euler’s method

________ 17. What is a shooting method?

a. An iterative method for approximating the solution of a two-point boundary value problem that makes use of a method for solving initial value problems

b. A direct method for solving initial value problems

c. A discretization method for solving a two-point boundary value problem

d. An iterative method for solving nonlinear algebraic equations

_______ 18. How could you start an Adams-Bashforth-Adams-Moulton method ?

a. Use a Taylor series method

b. Use a Runge-Kutta method

c. Either a or b

d. None of the above

_______ 19. When integrating an ordinary differential equation, if you take too small a stepsize,

a. rounding errors can dominate the solution

b. truncation errors will dominate the solution

c. numerical instability can cause problems

d. none of the above

Explanation / Answer

Answer)

1) Knots ,

2) Runge Kutta

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