Write down the equations determining the coefficients of the not-a-knot cubic spline interpolating to the data...

Determine the clamped cubic spline that interpolates the data f(-3) = 2 ; f(-1) = -3...

Determine the clamped cubic spline that interpolates the data f(-3) = 2 ; f(-1) = -3 ; f(0) = 1 ; f(3) = 6 ; f(5) = 3 and satisfies s'(-3) = s'(5) = 0

Set up the linear system for the clamped cubic spline S that interpolates the data f(0)...

Set up the linear system for the clamped cubic spline S that interpolates the data f(0) = 1, f(2) = 9, f(3) = 28 and satisfies S 0 (0) = 0 and S 0 (3) = 27.

Q14:Determine the natural cubic spline S that interpolates the data f (0) = 0, f (1)...

Q14:Determine the natural cubic spline S that interpolates the data f (0) = 0, f (1) = 1, and f (2) = 2.

Write down the equations of motion for free oscillations of the system of mechanical oscillators. Show...

Write down the equations of motion for free oscillations of the system of mechanical oscillators. Show that assuming simple harmonic solutions leads to the normal-mode frequencies given by equations (1), (2) and (3). (Coupled Oscillators) ω^2 = (2 − √ 2)k/m (1) ω^2 = 2k/m (2) ω^2 = (2 + √ 2)k/m (3)

Write an R function that takes three input values which would be three coefficients, solves quadratic...

Write an R function that takes three input values which would be three coefficients, solves quadratic equations, and prints both roots. If the roots are the same, print the root only once. # If there are no real roots, print the message "There are no real roots." For information of the quadratic equations, here is the Wiki page link https://en.wikipedia.org/wiki/Quadratic_equation Your code below Then call the function you've just created and input the coefficients for the equations 3x^2 +5x +...

a -Write the system of equations if the augmented matrix of the system is ⎢ 2,-1,1,-...

a -Write the system of equations if the augmented matrix of the system is ⎢ 2,-1,1,- 3 ⎥ ⎢−3, 0, 2, 3⎥ ⎣−1,−1, 3 ,0⎦ b. Perform either Gaussian elimination or Gauss-Jordan elimination to solve the system of equations

a) Starting with a parent nucleus A ZX, write down the four general reaction equations for...

a) Starting with a parent nucleus A ZX, write down the four general reaction equations for α decay, β − decay, β + decay, and γ decay, respectively. In each case fully label the mass and atomic number of the reaction products. [4 marks] b) What is the half-life T1/2 of a substance, for which after 9 days 12.5 % of the initial parent nuclei are still present?

In this example we will calculate the coefficients of static and kinetic friction using two equations...

In this example we will calculate the coefficients of static and kinetic friction using two equations along with Newton’s second law of motion. Suppose that a delivery company has just unloaded a 500 N crate full of home exercise equipment in your level driveway. You find that to get it started moving toward your garage, you have to pull with a horizontal force of magnitude 230 N. Once the crate “breaks loose” and starts to move, you can keep it...

81. Balance the following chemical equations. Write the appropriate coefficients in the spaces provided below. (5...

81. Balance the following chemical equations. Write the appropriate coefficients in the spaces provided below. (5 pts.) a. __ Al (s) + __ H2SO4 (aq) → __ Al2(SO4)3 (aq) + __H2 (g) b. __ NO2 (g) + __ H2O (l) → __ HNO3 (aq) + __NO (g) c. __ C3H8 (g) + __ O2 (g) → __ CO2 (g) + __H2O (g) d. __ Ca(OH)2 (s) + __ CO2 (g) → __ CaCO3 (s) + __ H2O (l) e. __...

(a) Write down the equations that relate: (i) The ?− component of the electric field at...

(a) Write down the equations that relate: (i) The ?− component of the electric field at a point specified by position vector ? to the to the electric potential ?(?) at that point. (ii) The ?− component of the electrostatic force acting on a particle of charge ? to the ?− component of the electric field at the position of the particle. And hence deduce an expression for: (iii) The ?− component of the electrostatic force acting on a particle...