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QUESTION 1 The following velocity vs time data is given. To find polynomial interpolation are the...
The following data of the velocity of a body as a function of Time (s) Velocity (m/s) 22 Using quadratic interpolation, the interpolant time is given as f 24 123 4. 15 24 18 37 25 v(t) 9.500r2 -383.0t +3853 approximates the velocity of the body between 18 and 24 seconds. From $ information, can you find out when the velocity of the body is 26 m/sdurintg above time interval?
Problem 2: The following data of the velocity of a body is given as a function of time 24 33 Time (sec) Velocity (m/s) 17 28 0 21 26 223 a. Calculate the velocity in m/s at t= 22 sec using a quadratic polynomial interpolation through linear systems of equations. b. Set up the 9x9 matrix to solve all coefficients through quadratic spline interpolation (the matrix itself is the answer we're looking for, you do not need to solve it)
1. Velocity of a rocket is given as a function of time in table 1. Table 1. ind any 2l order polynomial of Lagrangian interpolation from the table 1 by 0 10 15 b) Build a program in Matlab for the Lagrangian polynomial interpolation to: 227.04 362.78 20 517.35 bl) Determine the value of the velocity at 16s using formulas of the 1" order and the 4th order Lagrangian polynomial interpolation. From that, find relative error between these two results...
QUESTION 1 (25 MARKS) a) The fuel consumption of an engine has been recorded as shown in the following table. 1.2 1.7 1.8 2.0 Time (hour) Fuel (liter) 0.3320 0.5474 0.7389 Predict the missing term, x using second order Lagrange's interpolation method. Correct your answer in 4 significant figures.] [8 marks] b) The upward velocity of a rocket is given as a function of time in the following table. Time, 1 (seconds,s) Velocity, vt) (m/s) 0 0 10 227.04 15...
The position vs time of a object is given by 1. What is the y velocity in m/s at 4.5 seconds? Answer in m/s. 2. At what time is the speed equal to 15 m/s? Answer in s. 0 s 1 s 2 s 10 s 21/2 s 23/2 s 3. The velocity of an object vs. time is given by What is the acceleration at t = 2s? Note: the acceleration is non-constant! Take the derivative of the velocity!...
i need matlab code for this question please solve in matlab platform 4. The upward velocity of the rocket is measured with respect to time and the data is given in the following table Velocity vs time data for a rocket Time,(s) Velocity,v (m/s 106.8 5 279.2 12 We wanted to approximate the velocity profile by Construct the set of linear equation and solve the equation for the coefficients a,b,and c in d) 4. The upward velocity of the rocket...
The position vs time of a object is given by 1.What is the y velocity at 4.5 seconds? 2.At what time is the speed equal to 15 m/s? The velocity of an object vs. time is given by 3. What is the acceleration at t = 2s? We were unable to transcribe this imageWe were unable to transcribe this image
Please help with this Kinematics question! Position and time graphs. Velocity vs. time graph. Consider this position vs. does the corresponding velocity vs. time graph look like? 1. time graph. What (a) Sketch your prediction below * Now reproduce the position graph by walking, and see if the velocity graph comes out the way you expect. 10 t (seconds) Velocity Graph Prediction Velocity Graph Result (m/s) o (m/s) 0 10 6 10 t (seconds) t (seconds) 2. Here's a velocity...
Question 1 The graph shows the x velocity vs time as an object undergoing one dimensional motion. The car's position att O s 125 meters What is the car's x x-position at te6 sec? Answer in meters t (sec) D Question 2 Based on the graph from question 1, at what time is the object the furthest from where iwas at this cases t would be turthest in the nepative arecson o 6s 85 o 25 05 o 4s o...
please solve question no 5 and 6 05.02.2 The acceleration- time data for a small rocket is given in tabular form below. 5. 20 22 18 24 16 14 12 10 Time (s) Acceleration 106.6 (m/s) 37.1 45.8 56.2 30.1 68.0 80.9 94.1 a) Use Newton's divided difference quadratic polynomial interpolation to find the acceleration at t = 15.5 seconds. Be sure to choose your hase points for good accuracy b) Use the quadratic interpolant of part (a) to find...