Difference between revisions of "Andika Ramadhan Gurnida"
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'''QUIZ 2''' | '''QUIZ 2''' |
Revision as of 18:49, 16 December 2019
QUIZ 2
- ProbSet 2.1 no.6
- jawaban
from numpy import linalg import numpy as np
- Definisi
row1 = [0,0,2,1,2] row2 = [0,1,0,2,-1] row3 = [1,2,0,-2,0] row4 = [0,0,0,-1,1] row5 = [0,1,-1,1,-1] nmat = np.array([row1,row2,row3,row4,row5]) print("n matrix are:") print(nmat) cons = np.array([1,1,-4,-2,-1]) print("Y matrix are:") print(cons)
- Penyelesaian
Ans = linalg.solve(nmat,cons) x1val=int(Ans[0]) x2val=int(Ans[1]) x3val=int(Ans[2]) x4val=int(Ans[3]) x5val=int(Ans[4]) print("x result are:") print("x1=",x1val) print("x2=",x2val) print("x3=",x3val) print("x4=",x4val) print("x5=",x5val)
Ujian Tengah Semester
'''No.1''' from math import *
g = 9.81 m1 = eval(input("mass 1: ")) m2 = eval(input("mass 2: ")) m3 = eval(input("mass 3: ")) alpha = eval(input("alpha: ")) u = eval(input("friction coefficient: ")) x = sin(alpha) y = cos(alpha) t1 = m1*g*(x-(u*y)) t2 = (m2*g*(x-(u*y))) + t1 t3 = (m3*g*(x-(u*y))) + t2 t4 = t3 #Hasil print("t1: ",t1) print("t2: ",t2) print("t3: ",t3) print("t4: ",t4)
from math import * from sympy import * g = 9.81 pro = 1.2 cd = eval(input("drag coefficient: ")) area = eval(input("area : ")) v0 = 0 m = eval(input("car mass: ")) u = eval(input("friction: ")) a = eval(input("acceleration: ")) vt = eval(input("top speed: ")) fs = g*u fdrag= (cd*area*pro*v0**2)/2*m f1 = a atot = f1 - (fdrag + fs) t = (vt-v0)/atot print("time to reach top speed : ",t)
Video Muhasabah : https://youtu.be/RUl5zqLGhoE
Perbaikan UTS
Perbaikan kasus A dengan menggunakan metode eliminasi Gauss :
import math import numpy as np #matrix C & D C = np.array([[1., 0., 0.], [-1., 1., 0.], [0., -1., 1.]], float) D = np.array([21.37, 14.24, 7.12], float) n = len(C) #panjang dari baris c print('Matriks C :') print(C,'\n') print('Matriks C mempunyai ', n , ' baris','\n') print('Matriks D :') print(D,'\n') for k in range(0,n-1): #menggunakan metode eliminasi gauss for i in range(k+1,n): if C[i,k]!=0 : lam = C[i,k]/C[k,k] C[i,k:n] = C[i,k:n]-(C[k,k:n]*lam) D[i] = D[i]-(D[k]*lam) print('matrix C:', '\n', C, '\n') print('Nilai tegangan tali :') x = np.zeros(n,float) for m in range(n-1,-1,-1): x[m]=(D[m]-np.dot(C[m,m+1:n],x[m+1:n]))/C[m,m] print('T',m+1,'=', x[m])
Kasus B dengan menggunakan metode Runge Kutta :
g = 9.81 u = eval(input("Friction Coefficient: ")) a = eval(input("Percepatan mobil : ")) cd = eval(input("Drag coefficient : ")) m = eval(input("Massa mobil : ")) t0 = 0 v0 = 0 dt = 1 error = 100 F = a - g*u #dibagi dengan massa fs = cd/m #dibagi dengan massa lst = [] def dvdt(t0, v0): return F-(fs*(v0)**(1.5)) while error > 0.005: k1 = dvdt(t0, v0) k2 = dvdt(t0 + 0.5 * dt, v0 + 0.5 * dt * k1) k3 = dvdt(t0 + 0.5 * dt, v0 + 0.5 * dt * k2) k4 = dvdt(t0 + dt, v0 + dt * k3) v1 = v0 + (1.0 / 6.0)*(k1 + 2 * k2 + 2 * k3 + k4) t0 = t0 + dt error = ((v1 - v0) / v1)*100 #persentase error v0 = v1 lst.append(v1) waktu = len(lst) print ("Waktu yang dibutuhkan mobil untuk mencapai top speed dari diam: ", waktu+1, "s") print ("top speed: ", v1, "m/s")