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Use centered,backward and forward difference approximations to estimate the first derivatives of ...
Use forward and backward difference approximations of O(h)
Use forward and backward difference approximations of O(h) and a centered difference approximation of O(h2) to estimate the first derivative of the following function:f(x)=25x³-6x²+7x-88Evaluate the derivative at x=2 using a step size of h=0.25. Compare your results with the true value of the derivative. Interpret your results on the basis of the remainder term of the Taylor series expansion.
Use the Taylor expansion to derive three finite difference schemes (forward-difference, backward-...
Use the Taylor expansion to derive three finite difference schemes (forward-difference, backward- difference and central-difference) of the first derivatives as well as the central difference scheme of the second derivative and comment on the accuracy order of each scheme. [10%]
Use the Taylor expansion to derive three finite difference schemes (forward-difference, backward- difference and central-difference) of the first derivatives as well as the central difference scheme of the second derivative and comment on the accuracy order of each scheme. [10%]
4. For f(x) = e-* and h = 0.10 where, C = 1.** a) Use centered...
4. For f(x) = e-* and h = 0.10 where, C = 1.** a) Use centered approximations to estimate the first and second derivatives of f(x) at x = 2. Use the east accurate formulas available. (10 pts) b) Using the most acurate forward and backward difference formulas, estimate the first derivative of f(x) at x 2. (10 pts) Forward Difference First Derivative 7.) - SD Error OM or) = -1.) + 40..) - 3 ) 2h Second Derivative 'w...
Problem statement: Use forward and backward difference approximations of 0(h) and a centered difference approximation of...
Problem statement: Use forward and backward difference approximations of 0(h) and a centered difference approximation of 0(h') to estimate the first derivative of f(x)- 0.x-0.15x-0.5x-0.25x +12 Problem #2 Steady-state temperatures (K) at three nodal points of a long rectangular rod as shown. The rod experiences a uniform volumetric generation rate of 5 X 10 Wm and has a thermal conductivity of 20 W/m-K. Two of its sides are maintained at a constant temperature of 300K, while others are insulated. Problem...
Estimate the second derivative of the following function using stencils for the FORWARD and CENTRAL derivatives for an order of accuracy of O(h2) for each. Use a step size of h -1. fo)x-2x2...
Estimate the second derivative of the following function using stencils for the FORWARD and CENTRAL derivatives for an order of accuracy of O(h2) for each. Use a step size of h -1. fo)x-2x2 +6 Second derivative, Forward Difference Approximation, o(h2)- Second derivative, Central Difference Approximation, O(h2) Which of the two methods is closer to the true value? (Forward/Central 12.5 points Differential Equation Estimate the second derivative of the following function using stencils for the FORWARD an derivatives for an order...
Example 1 Find the first derivative of the function below analytically and with forward, backward and...
Example 1 Find the first derivative of the function below analytically and with forward, backward and centered difference formulas at x = 0.5 and Ax=0.1. Find the true errors. f(x) = cos(3x)
3. For f(x) = e-x and h = 0.6
3. For f(x) = e-x and h = 0.6 a) Use forward and backward difference approximations to estimate the second derivatives of f(x) at x = 2. Use the least accurate formulas available.b) Using the most accurate centered difference formula, estimate the second derivative of f(x) at x=2.
Compute the backward and center difference approximations for the 1st derivative of y = log x...
Compute the backward and center difference approximations for the 1st derivative of y = log x evaluated @ x=20 and h=2. Using the second order error O(h2) formula.
1. Use the forward-difference formulas and backward-difference formulas to determine each missing entry in the following...
1. Use the forward-difference formulas and backward-difference formulas to determine each missing entry in the following tables. 0.0 0.00000 0.2 0.74140 0.4 1.3718 xf(x) s(x) 0.3 1.9507 0.2 2.0421 -0.1 2.0601 MATH-321: INTRODUCTION TO NUMERICAL ANALYSIS 2·The data in Exercise 1 comes from functions f with second derivatives given as follows: (a) "(x)-e 4 Find error bounds using the error formulas. (b) (x)8 cos 2x
3. Find the first derivative of a functionf(x)-ex (a) Use calculus to determine the correct value...
3. Find the first derivative of a functionf(x)-ex (a) Use calculus to determine the correct value of the derivative at x = 2. If h = 0.25, (b) Evaluate the second-order centered finite-difference approximation (e) Evaluate the second-order forward difference approximation. (d) Evaluate the second-order backward difference approximation. (e) Create a MATLAB function program, which gives output up to second order centered finite difference approximation of second derivative "(xo). The input arguments aref n (order of approximation, 1 or 2),...
Use the Taylor expansion to derive three finite difference schemes (forward-difference, backward- difference and central-difference) of the first derivatives as well as the central difference scheme of the second derivative and comment on the accuracy order of each scheme. [10%]
Use the Taylor expansion to derive three finite difference schemes (forward-difference, backward- difference and central-difference) of the first derivatives as well as the central difference scheme of the second derivative and comment on the accuracy order of each scheme. [10%]
4. For f(x) = e-* and h = 0.10 where, C = 1.** a) Use centered approximations to estimate the first and second derivatives of f(x) at x = 2. Use the east accurate formulas available. (10 pts) b) Using the most acurate forward and backward difference formulas, estimate the first derivative of f(x) at x 2. (10 pts) Forward Difference First Derivative 7.) - SD Error OM or) = -1.) + 40..) - 3 ) 2h Second Derivative 'w...
Problem statement: Use forward and backward difference approximations of 0(h) and a centered difference approximation of 0(h') to estimate the first derivative of f(x)- 0.x-0.15x-0.5x-0.25x +12 Problem #2 Steady-state temperatures (K) at three nodal points of a long rectangular rod as shown. The rod experiences a uniform volumetric generation rate of 5 X 10 Wm and has a thermal conductivity of 20 W/m-K. Two of its sides are maintained at a constant temperature of 300K, while others are insulated. Problem...
Estimate the second derivative of the following function using stencils for the FORWARD and CENTRAL derivatives for an order of accuracy of O(h2) for each. Use a step size of h -1. fo)x-2x2 +6 Second derivative, Forward Difference Approximation, o(h2)- Second derivative, Central Difference Approximation, O(h2) Which of the two methods is closer to the true value? (Forward/Central 12.5 points Differential Equation Estimate the second derivative of the following function using stencils for the FORWARD an derivatives for an order...
Example 1 Find the first derivative of the function below analytically and with forward, backward and centered difference formulas at x = 0.5 and Ax=0.1. Find the true errors. f(x) = cos(3x)
3. For f(x) = e-x and h = 0.6 a) Use forward and backward difference approximations to estimate the second derivatives of f(x) at x = 2. Use the least accurate formulas available.b) Using the most accurate centered difference formula, estimate the second derivative of f(x) at x=2.
1. Use the forward-difference formulas and backward-difference formulas to determine each missing entry in the following tables. 0.0 0.00000 0.2 0.74140 0.4 1.3718 xf(x) s(x) 0.3 1.9507 0.2 2.0421 -0.1 2.0601 MATH-321: INTRODUCTION TO NUMERICAL ANALYSIS 2·The data in Exercise 1 comes from functions f with second derivatives given as follows: (a) "(x)-e 4 Find error bounds using the error formulas. (b) (x)8 cos 2x
3. Find the first derivative of a functionf(x)-ex (a) Use calculus to determine the correct value of the derivative at x = 2. If h = 0.25, (b) Evaluate the second-order centered finite-difference approximation (e) Evaluate the second-order forward difference approximation. (d) Evaluate the second-order backward difference approximation. (e) Create a MATLAB function program, which gives output up to second order centered finite difference approximation of second derivative "(xo). The input arguments aref n (order of approximation, 1 or 2),...
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