Difference between revisions of "Irfan Rahadi Kurninato"

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Line 154: Line 154:
 
         break
 
         break
 
  PrintMatrix(Matrex)#print matrix
 
  PrintMatrix(Matrex)#print matrix
 +
print("")
 +
print("Solusinya")
 +
print("T1 = ",Matrex[0][3])
 +
print("T2 = ",Matrex[1][3])
 +
print("T3 = ",Matrex[2][3])
 +
print("Sin Theta = ",Matrex[0][3]/(m1*g))
 
  [[File:uts_cara2_irfan.jpg]]
 
  [[File:uts_cara2_irfan.jpg]]
  

Revision as of 23:41, 28 October 2019

السلام عليكم Irfan Rahadi Kurnianto - 1706036255

[4 September 2019]
Mengapa kita harus belajar kalkulus?
kalkulus adalah mata kuliah dasar teknik. Mata kuliah kalkulus sangat berguna untuk membentuk logika agar mudah dalam belajar suatu hal lain


Tugas 1
Tugas irfan.png
[11 September 2019]
Bit Komputer
Program Catur
coding bukan pelajaran anak fasilkom/elektro
belajar python
praktek programing
dasar2 programing + pyhton
programnya irfan t2 dikelas
Irfant2.png

[18 September 2019]

Tugas irfan 18 sep 19

[25 September 2019]

Tugas irfan 25 sep 19
catatan irfan 25 sep 19

[Kuis 16 Oktober 2019] program runge kutta

https://pastebin.com/GxfenTa3
# dibuat oleh irfan rahadi 1706036255

def TurunanY(x, y): #Fungsi Turunan Y
return ((x**2 - 4*y))   
xawal = 0 #boundary condition x awal soal
yinit = 1 #boundary condition y awal soal
x = 0.03  #nilai x yang ditanya
h = 0.01  #delta yang digunakan
angka = (int)((x - xawal)/h) #menghitung jumlah increment yg diperlukan  
for i in range(1, angka + 1):
k1 = h * TurunanY(xawal, yinit) #rumus runge kutta
k2 = h * TurunanY(xawal + 0.5 * h, yinit + 0.5 * k1)
k3 = h * TurunanY(xawal + 0.5 * h, yinit + 0.5 * k2)
k4 = h * TurunanY(xawal + h, yinit + k3)
yinit = yinit + (1.0 / 6.0)*(k1 + 2 * k2 + 2 * k3 + k4) #menjumlahkan nilai k1,k2,k3,k4 ke y' yang baru dan membaginya  
xawal = xawal + h #menambahkan xawal besarkan delta h
print(yinit)
 PROGRAM GAUSS
from numpy import linalg 
import numpy as np
a= np.array ([[0,0,2,1,2] ,[0,1,0,2,-1], [1,2,0,-2,1], [0,0,0,-1,1], [0,1,-1,1,-1]])
b= np.array ([[1], [1], [-4], [-2], [-1]])
c= np.array ([[0,0,2,1,2,1] ,[0,1,0,2,-1,1], [1,2,0,-2,1,-4], [0,0,0,-1,1,-2], [0,1,-1,1,-1,-1]])
print ("Matrix a " , a)
print ("Matrix b ", b)
print ("Matrixnya adalah:" , c)
matsolve = linalg.solve (a,c)
x1 = int(matsolve[0])
x2 = int(matsolve[1])
x3 = int(matsolve[2])
x4 = int(matsolve[3])
x5 = int(matsolve[4])
hasil= (x1, x2, x3, x4, x5)
print ("Hasil nilai x1,x2,x3,x4,x5 :")
print (hasil)
UTS 23 oktober
3 A
# Cara 1
m1 = eval(input("Massa Benda 1 ? "))
m2 = eval(input("Massa Benda 2 ? "))
m3 = eval(input("Massa Benda 3 ? "))
m4 = eval(input("Massa Benda 4 ? "))
g = eval(input("Gravitasi ? "))         
sinusa = ((m1+m2+m3)/m4)
T1 = m1*sinusa*g
T2 = m2*sinusa*g + T1
T3 = m3*sinusa*g + T2
print("T1", T1)
print("T2",T2)
print("T3", T3)
print("Sin theta = ", sinusa,"")
Uts cara1 irfan.jpg

#Cara 2
m1 = eval(input("Massa Benda 1 ? "))
m2 = eval(input("Massa Benda 2 ? "))
m3 = eval(input("Massa Benda 3 ? "))
m4 = eval(input("Massa Benda 4 ? "))
g = eval(input("Gravitasi ? "))         
sinusa = ((m1+m2+m3)/m4)
Matrex=[[1,0,0,m1*sinusa*g],[1,1,0,(2*m1+m2)*sinusa*g],[2,1,1,((2*(2*m1+m2))+m3)*sinusa*g]]      #Matrix yg mau di gauss
def PrintMatrix(Matrix): #untuk print
    for i in range(len(Matrix)):
        for j in range(len(Matrix[i])):
            print(Matrix[i][j],end="\t")
        print()
def MultiplyRow(Row,Scalar): #untuk kali
    for i in range(len(Row)):
        Row[i]=Row[i]*Scalar
def AddRow(Matrix,RowNR1,RowNR2,multi=1): #untuk tambah
    for i in range(len(Matrix[RowNR2])):
        Matrix[RowNR2][i]+=Matrix[RowNR1][i]*multi
def SwitchRow(Matrix,RowNR1,RowNR2): #untuk tukar
    bufrow=Matrix[RowNR1]
    Matrix[RowNR1]=Matrix[RowNR2]
    Matrix[RowNR2]=bufrow
    return 0
def ZeroRowsBelow(Matrix,RowNR,CollumnNR): #untuk menghindari eror 0
    for i in range(len(Matrix)-RowNR-1):
        if not(Matrix[RowNR][CollumnNR]==0):
            AddRow(Matrix,RowNR,i+1+RowNR,-float(Matrix[i+1+RowNR][CollumnNR])/Matrix[RowNR][CollumnNR])
            #print(i)
def SolveMatrix(Matrix):     #untuk mensolve
    #Bring To Row-Echelon Form
    for i in range(len(Matrex)):
        ZeroRowsBelow(Matrex,i,i)
   #Make Row-Echelon 1
    for i in range(len(Matrex)):
       if not(Matrex[i][i]==0):
            MultiplyRow(Matrex[i],1./Matrex[i][i])
    #diulang lagi
    for i in range(len(Matrex)):
        for j in range(i):
            if not(Matrex[i][i]==0):
                AddRow(Matrex,i,j,-float(Matrex[j][i])/Matrex[i][i])
def IsRRowEchelon(Matrix): #cek selsai
    for i in range(len(Matrix)):
        pos=[1,0]
        if not(Matrix[i][i] in pos):
            return 0
    return 1
def CheckForEqualRows(Matrix):#cek nilai
    newlist=[]
    for i in Matrix:
        if i not in newlist:
            newlist.append(i)
    return newlist   
MatrixNew=[]
for j in range(len(Matrex)):
    RowNew=[]
    for i in range(len(Matrex[j])):
        RowNew.append(Matrex[j][i])
    MatrixNew.append(RowNew)
Matrex=MatrixNew
PrintMatrix(Matrex)
print()
while True:
    SolveMatrix(Matrex)
    Matrex=CheckForEqualRows(Matrex)
    if IsRRowEchelon(Matrex):
        break
PrintMatrix(Matrex)#print matrix
print("")
print("Solusinya")
print("T1 = ",Matrex[0][3])
print("T2 = ",Matrex[1][3])
print("T3 = ",Matrex[2][3])
print("Sin Theta = ",Matrex[0][3]/(m1*g))
Uts cara2 irfan.jpg
3 B
vtop = eval(input("vtop ? "))
percepatan  = eval(input("a ? "))
t = (2*vtop/percepatan)**(1/2)
print(t)