Docs SEM 2

2022-04-03 18:13:51 +02:00 · 2022-04-03 18:13:51 +02:00 · ed2b1d7fe8
commit ed2b1d7fe8
46 changed files with 1217 additions and 0 deletions
--- a/Documents/School/B1.pdf
+++ b/Documents/School/B1.pdf
--- a/1/Octave/december2018.m
+++ b/1/Octave/december2018.m
@ -0,0 +1,30 @@
+% Vraag 1 
+
+t=1:5;
+B = [t;t.^2;t.^3;t.^4;t.^5]
+det(B)
+
+%C =B; C(4,:) = B(4,:) +7*B(3,:)
+%det(B) -det(C)
+
+C = B(:,end:-1:1)
+det(B) - det(C)
+
+% Vraag 2
+
+t =(-1:0.1:1)';
+A = [ones(size(t)) t t.^2]
+b =(20:-1:0)'-t.^3
+
+x1 = [10;-10.658;0]
+x2 = [-10;8.228;2]
+
+(A*x1)'*(b- A*x1) 
+(A*x2)'*(b- A*x2) 
+% x1 is de kko 
+
+z1 = b - A*x1
+z2 = b - A*x2
+
+z1'*z1
+z2'*z2
--- a/1/Octave/examen2020.m
+++ b/1/Octave/examen2020.m
@ -0,0 +1,51 @@
+% 1
+
+v = [2 -1 0 -1 3 -1 -2.5 1]'
+
+u = v/sqrt(v'*v)
+
+Q = eye(size(v*v')) - 2 * u*u'
+
+Q'*Q -eye(length(u))
+Q'-inv(Q)
+inv(Q)-Q
+
+
+% 2 
+a1 = [1 -2 1 0]'
+a2 = [1 2 -1 -2]'
+a3 = [-1 2 -1 1]'
+
+A = [a1 a2 a3]
+rref(A)
+rank(A)
+% kolommen zijn l.o
+
+b = [-2 -10 5 8]'
+
+xhat = inv(A'*A)*A'*b % kleinste kwadraten opl
+
+U = rref([A b])
+
+% vraag 3 
+x = [1;1;1]
+
+% x[k] = A^k*x
+A = [0 0 3/4;1 0 -2;0 1 3/2]
+b= [1;3;2]
+c= [0 0 1]
+
+T = 20;
+for k = 1:T,
+  x = [x A*x(:,k)];
+end 
+
+plot(0:T, c*x)
+
+
+
+
+
+
+
+
--- a/1/Octave/examen2021.m
+++ b/1/Octave/examen2021.m
@ -0,0 +1,32 @@
+% 13 augustus examen matlabroot
+
+
+% Vraag 1 
+
+
+N = 10
+k = (0:N-1)'
+
+a = exp(i*2*pi*k/N)
+b = exp(i*4*pi*k/N)
+
+c = zeros(N,1); c(2) = 1; c(3) = i;
+
+Q = [a,b, conj(a), conj(b)]
+
+D = Q'*Q % is een diagonaal matrix dus orthogonaal
+
+na = sqrt(a'*a);  % normeren
+nb = sqrt(b'*b);
+
+V1 = [a/na conj(a)/na]
+V2 = [a/na conj(a)/na b/nb conj(b)/nb]
+
+d1 = c - V1*V1'*c
+d2 = c - V2*V2'*c
+
+sqrt(d1'*d2) % geeft 1.0954
+
+% Vraag 2 
+
+
--- a/1/Octave/examenjan.m
+++ b/1/Octave/examenjan.m
@ -0,0 +1,46 @@
+% Vraag 1
+
+A = [0.1 -1 0;0 pi -0.2;0.7 -2 1/sqrt(2)]
+C = A 
+norm(C(:,3))
+
+for col=1:size(A,2)
+B = A;
+B(:,col)=norm(A(:,col)) * A(:, col)
+end
+
+norm(B(:,3))
+
+
+% Vraag 2 
+
+a1 = [1 -2 1 0 3 -5]'
+a2 = [-1 0 3 1 2 4]'
+a3 = [3 -4 -1 2 -1 0]'
+a4 = [-10 10 10 -4 10 3]'
+
+A = [a1 a2 a3 a4]
+rref(A)
+
+% a4 is lin afh van de andere kolommen
+% gewichten: x = [1 2 -3]'
+x = [a1 a2 a3]\a4
+rank([a1 a2 a3])
+% a3 is niet te schrijven als een lineaire combinatie van zijn voorgangers want lin onafh
+
+% 4
+
+% qr geeft orthonormale kolommen
+
+[Q, R] = qr([a1 a2 a3], 0)
+
+
+% Vraag 3 
+A = [1 3;-1 -2;2 4;7 -3;-5 1]
+
+P1 = A*inv(A'*A)*A'
+
+
+
+
+
--- a/1/Octave/voorbeeldtoest.m
+++ b/1/Octave/voorbeeldtoest.m
@ -0,0 +1,52 @@
+t=(-1:0.1:1)';
+A=[ones(size(t)) t t.^2]
+b=(20:-1:0)'-t.^3
+
+% Ax = b
+% als x1 een kleinste kwadratenopl is dan staat b-Ax1 loodrecht
+% op Ax1.
+
+x1 = [10;-10.658;0]
+x2 = [-10;8.28;2]
+
+
+c = (b - A*x1 )'*(A*x1)
+d = (b - A*x2)'*(A*x2)
+
+% c is ongeveer nul
+
+%% vraag 2
+
+A = [1  1/2   0
+       1/2 2  -1/2
+        0 -1/2  -3]
+
+[V D] = eig(A)
+
+[w, m] = max(diag(D))
+ 
+ argmax = V(:,m)
+ 
+ 
+ %% vraag 3
+ 
+ t=-1:4
+ B=[t;ones(size(t));cos(pi*t);cos(pi/2*t);t.^2]/10
+ 
+ C= zeros(size(B))
+ 
+ for k=1:size(B, 1) % k tot #rijen van B
+    C(k,:) = 2 * B(k,:)/sqrt(B(k,:)*B(k,:)') % normeren van elke rij maal 2
+ end
+
+ % Zonder for-loop
+
+ C = diag(1./sqrt(diag(B*B')))*B
+ 
+ 
+ % Vraag 4
+ 
+ 
+ 
+ 
+ 
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
@ -0,0 +1,21 @@
+% Vraag 4
+clear all
+t=(-0.2:0.1:3)'
+B=[ones(size(t))  cos(pi*t)  cos(pi/2*t).^2   sin(pi*t)   sin(pi/2*t).^2]
+b=t.^2
+
+
+[U, S, V] = svd(B)
+
+diag(S)
+r = 3
+
+U1 = U(:,1:r) % orhonormale basis voor Col B
+U2 = U(:,r+1:end) % Nul B transpose; staat loodrecht op col B
+pCol = U1*U1'*b
+pNul = U2*U2'*b
+
+% som v/d beide projecties moet nul zijn.
+
+b- pCol - pNul
+
--- a/2/EN/ElektrischeNetwerken_H01Z2A_Dehaene_AllSlides2022.pdf
+++ b/2/EN/ElektrischeNetwerken_H01Z2A_Dehaene_AllSlides2022.pdf
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
@ -0,0 +1,7 @@
+dict_vakken = {"Thermodynamica":"H01B4B",
+"Algemene en technische scheikunde":"H01A8A"}
+
+dict_vakken["Methodiek van de informatica"] = "H01B6"
+
+code_thermo = dict_vakken["Thermodynamica"]
+print(code_thermo)
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
@ -0,0 +1,10 @@
+num = int(input("Geef een getal: "))
+
+num_dict = {
+    1:"een",
+    2:"twee",
+    3:"drie"
+    #...
+}
+
+print(num_dict[num])
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
@ -0,0 +1,9 @@
+dict_klas = {"klas":
+{"student":
+{"name":"Mike"
+,"percentages":
+{"fysica":70,"geschiedenis":80}
+}}}
+
+
+print(dict_klas["klas"]["student"]["percentages"]["geschiedenis"])
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
@ -0,0 +1,14 @@
+import re
+
+text = input(">")
+
+def nospecial(text):
+
+    text = re.sub("[^a-zA-Z0-9 ]+", "", text)
+    return text
+    
+
+text = nospecial(text)
+text = text.split()
+zinnen_set = set(text)
+print(zinnen_set)
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
@ -0,0 +1,43 @@
+import string
+
+"""
+In cryptografie is caesar cipher een encryptietechniek
+waarin elke letter in het alfabet vervangen wordt door
+een letter die een aantal posities verder in het alfabet 
+staat. In dit geval implementeren we ROT-13, waarbij elke 
+letter dertien plaatsen opschuift. Een a zou bijvoorbeeld 
+een n worden. Schrijf hiervoor een encoder en decoder en 
+vertaal/codeer hiermee de volgende twee berichten:
+Pnrfne pvcure? V zhpu cersre Pnrfne fnynq! 
+Gebruik voor deze opgave een dictionary!
+"""
+
+
+def build_shift_dict(shift):
+    alphabet = string.ascii_lowercase + string.ascii_uppercase
+
+    shifted_lower = string.ascii_lowercase[shift:] + string.ascii_lowercase[0:shift]
+    shifted_upper = string.ascii_uppercase[shift:] + string.ascii_uppercase[0:shift]
+
+    shifted_alphabet = shifted_lower + shifted_upper
+
+    return {key: value for key, value in zip(alphabet, shifted_alphabet)}
+
+
+def apply_shift(shift, message):
+    dictionary = build_shift_dict(shift)
+
+    for letter in message:
+        for letter in dictionary.values():
+            print(letter)
+            
+
+
+
+message = "Pnrfne pvcure? V zhpu cersre Pnrfne fnynq!"
+shift = 13
+vertaling = apply_shift(shift, message)
+print(vertaling)
+
+
+        
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
@ -0,0 +1,5 @@
+set1 = {10, 20, 30, 40, 50}
+set2 = {30, 40, 50, 60, 70}
+
+intersect = set1.intersection(set2)
+print(intersect)
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
@ -0,0 +1,27 @@
+file = open("survey.txt", "r")
+list1 = ["Bel", "Eng", "Ger", "Fra", "Ita", "Spa","Cam"]# hiermee open je het bestand enkel om het te lezen
+my_set = set()
+count = 0
+for line in file.readlines(): # hiermee lees je het bestand lijn per lijn
+    line = line.strip()   
+    line_split = line.split()
+    for i in line_split:
+        my_set.add(i)
+    
+    for team in line_split:
+        if team == "Bel" or "Ger":
+            count += 1
+    
+print("aantal fans: ",count)
+        
+for woord in list1:
+    if woord not in my_set:
+        print(woord+" is niet gekozen.")
+
+
+    
+                              # hier kan je de lijn gebruiken in een functie
+file.close() # sluit de file
+
+
+
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
@ -0,0 +1,74 @@
+import string
+
+def hoofdletters_kleineletters(string1, string2):
+    kleineletters1 = []
+    kleineletters2 = []
+    hoofdletter1 = []
+    hoofdletter2 = []
+
+    for i in string1:
+        if i == i.lower():
+            kleineletters1.append(i)
+    for i in string2:
+        if i == i.lower():
+            kleineletters2.append(i)
+        if i == i.upper():
+            hoofdletter1.append(i)
+            hoofdletter2.append(i)
+
+    print(set(kleineletters1).intersection(set(kleineletters2)))
+    print(set(hoofdletter1).intersection(set(hoofdletter2)))
+
+
+
+
+def set_geenletters_instrings(string1,string2):
+    kleineletters1 = []
+    kleineletters2 = []
+    hoofdletter1 = []
+    hoofdletter2 = []
+
+    for i in string1:
+        if i == i.lower():
+            kleineletters1.append(i)
+    for i in string2:
+        if i == i.lower():
+            kleineletters2.append(i)
+        if i == i.upper():
+            hoofdletter1.append(i)
+            hoofdletter2.append(i)
+    allekleineletters = string.ascii_lowercase
+    allehoofdletters = string.ascii_uppercase
+
+    set(kleineletters1).difference(set(kleineletters2))
+    print(set(allekleineletters).difference(set(kleineletters1)))
+
+
+
+
+def niet_letters(string1,string2):
+    niet_letters1 = []
+    niet_letters2 = []
+
+    for i in string1:
+        if i.isalpha():
+            pass
+        else:
+            niet_letters1.append(i)
+    for i in string2:
+        if i.isalpha():
+            pass
+        else:
+            niet_letters2.append(i)
+
+    niet_letters = set(niet_letters1).intersection(set(niet_letters2))
+    print(niet_letters)
+
+
+def main():
+    #hoofdletters_kleineletters("Hallo","Nealogr")
+    #set_geenletters_instrings("Hallo","Nealogr")
+
+    niet_letters("Dit is een string123", "lol13435//##")
+
+main()
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
@ -0,0 +1,200 @@
+Ger Fra Eng
+Ger Fra Eng
+Ger Ita Eng
+Ger Fra Eng
+Ger Ita Eng
+Bel Ger Eng
+Bel Ger Spa
+Bel Ita Eng
+Ger Spa Ita
+Bel Ger Eng
+Spa Ita Fra
+Bel Ita Fra
+Ger Ita Fra
+Ger Spa Fra
+Bel Ita Fra
+Ita Fra Eng
+Bel Ita Spa
+Ger Ita Fra
+Bel Ger Eng
+Bel Ita Eng
+Bel Fra Eng
+Ger Spa Fra
+Bel Ger Spa
+Ger Ita Fra
+Spa Ita Eng
+Spa Ita Fra
+Bel Ita Eng
+Bel Ger Fra
+Bel Ger Ita
+Bel Ger Spa
+Ita Fra Eng
+Ger Spa Eng
+Bel Fra Eng
+Bel Ger Fra
+Bel Ger Ita
+Bel Ger Ita
+Bel Ger Eng
+Bel Fra Eng
+Ita Fra Eng
+Ita Spa Eng
+Bel Ita Fra
+Ita Spa Fra
+Bel Ger Ita
+Bel Ita Eng
+Bel Ger Eng
+Ita Fra Eng
+Bel Spa Eng
+Bel Ita Eng
+Bel Ger Fra
+Bel Ita Eng
+Ita Fra Eng
+Bel Ger Ita
+Ger Fra Eng
+Ita Fra Eng
+Ger Spa Fra
+Ger Ita Eng
+Bel Ita Eng
+Bel Spa Fra
+Bel Ger Eng
+Ita Fra Eng
+Ita Fra Eng
+Bel Fra Eng
+Ger Spa Fra
+Ger Ita Eng
+Ita Fra Eng
+Bel Ger Eng
+Bel Spa Fra
+Ger Ita Eng
+Ita Fra Eng
+Ger Spa Fra
+Bel Spa Ita
+Bel Ita Eng
+Bel Ita Spa
+Bel Ita Fra
+Bel Ger Eng
+Ger Spa Ita
+Ger Spa Eng
+Spa Fra Eng
+Ita Fra Eng
+Ger Ita Spa
+Bel Ger Eng
+Bel Ger Ita
+Ita Fra Eng
+Ger Spa Fra
+Ger Spa Eng
+Ita Fra Eng
+Bel Fra Eng
+Bel Ger Eng
+Ita Fra Eng
+Bel Ita Fra
+Bel Ger Fra
+Ger Spa Eng
+Ger Ita Eng
+Spa Fra Eng
+Ger Ita Eng
+Bel Ger Eng
+Bel Ger Ita
+Ger Fra Eng
+Ita Spa Eng
+Bel Spa Eng
+Spa Fra Eng
+Bel Ger Spa
+Bel Spa Ita
+Bel Ger Spa
+Ita Fra Eng
+Bel Ger Fra
+Bel Ger Ita
+Bel Ita Fra
+Ger Spa Ita
+Bel Ita Fra
+Bel Ger Fra
+Ger Ita Spa
+Bel Ita Eng
+Ger Spa Eng
+Bel Ita Fra
+Bel Fra Eng
+Bel Ger Spa
+Bel Ita Fra
+Ger Ita Fra
+Bel Spa Fra
+Ger Ita Eng
+Bel Ita Eng
+Bel Ger Fra
+Ger Ita Eng
+Ger Ita Spa
+Ger Fra Eng
+Ita Spa Fra
+Bel Fra Eng
+Ger Spa Ita
+Bel Ger Fra
+Ger Spa Ita
+Bel Ger Fra
+Ger Ita Spa
+Ger Fra Eng
+Ger Ita Spa
+Ger Ita Eng
+Ger Spa Ita
+Ita Spa Eng
+Ita Spa Eng
+Ger Ita Fra
+Bel Ita Spa
+Bel Ger Spa
+Ger Spa Eng
+Spa Ita Eng
+Spa Fra Eng
+Bel Ger Eng
+Bel Ita Fra
+Bel Ita Fra
+Ger Spa Eng
+Ita Fra Eng
+Spa Fra Eng
+Spa Fra Eng
+Ger Ita Eng
+Bel Ger Ita
+Ita Fra Eng
+Ita Spa Fra
+Bel Ger Fra
+Bel Ita Fra
+Bel Ita Eng
+Ger Ita Eng
+Spa Ita Eng
+Bel Ger Fra
+Spa Ita Eng
+Bel Spa Eng
+Bel Ger Eng
+Bel Ger Eng
+Ger Spa Eng
+Bel Ita Eng
+Ger Ita Fra
+Bel Ger Fra
+Ita Fra Eng
+Spa Fra Eng
+Spa Fra Eng
+Bel Ger Eng
+Bel Fra Eng
+Bel Spa Fra
+Bel Ger Eng
+Bel Ger Fra
+Bel Ita Spa
+Bel Ger Spa
+Ita Fra Eng
+Bel Ita Spa
+Bel Ita Fra
+Bel Ger Fra
+Ger Spa Fra
+Bel Fra Eng
+Ita Fra Eng
+Bel Fra Eng
+Ger Ita Fra
+Bel Ger Spa
+Bel Ger Fra
+Bel Spa Ita
+Bel Ita Fra
+Spa Fra Eng
+Bel Spa Eng
+Bel Ita Spa
+Ger Ita Fra
+Spa Fra Eng
+Ger Ita Eng
+Bel Ita Eng
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
@ -0,0 +1,84 @@
+import sys
+from subprocess import Popen, PIPE
+
+######################################################################################################################
+# TODO:                                                                                                              #
+# 1) PUT THIS FILE IN THE SAME FOLDER AS THE PYTHON FILE CONTAINING YOUR SOLUTION                                    #
+# 2) CHANGE THE NAME 'MY_FILE_NAME.py' BELOW THIS BOX TO THE NAME OF YOUR PYTHON FILE                                #
+# 3) RUN THIS FILE                                                                                                   #
+######################################################################################################################
+
+YOUR_SOLUTION_FILE_NAME = "paswoordchecker_runevanoverloop_v2.py"
+
+######################################################################################################################
+# DO NOT CHANGE ANYTHING BELOW THIS LINE                                                                             #
+######################################################################################################################
+
+
+# Parse the given output string into a readable string
+
+def parse_output(full_output_string):
+    try:
+        print(full_output_string)
+        output = str(full_output_string).replace('\\n', ' ').replace(',', '').replace('\\r', ' ').replace('(', '')\
+            .replace(')', '').replace('"', '').replace('\'', '')
+    except:
+        output = None
+    return output
+
+
+# Run one test case with given input and output, return True when test succeeds, False when test fails
+def run_one_test_case(inp, expected_output):
+    process = Popen([sys.executable, YOUR_SOLUTION_FILE_NAME], stdin=PIPE, stdout=PIPE, stderr=PIPE)
+    (output, err) = process.communicate(inp)
+    if len(str(err)) > 3:
+        print(err)
+        print("Je programma gooide een error. "
+              "(Kijk eventueel ook na of de naam en locatie van je programma correct zijn.)")
+        return False
+    process.wait()
+    output = output.decode('utf-8').replace("\n", "").replace("\r", "")
+ #   parsed_output = parse_output(output)
+    parsed_output = output
+    if parsed_output is None:
+        print("Controleer het formaat van je output! Geef enkel de gevraagde numerieke waarden, en géén tekst!"
+              " Kijk ook na dat je bij input() geen prompt meegeeft.")
+        return False
+    print("EXPECTED: ", expected_output.replace(" ", "*"))
+    print ("OUTPUT:   ", parsed_output.replace(" ", "*"))
+    return parsed_output == expected_output
+
+
+# Retrieve a list containing all test_cases
+def get_test_cases():
+    test_cases = []
+    # In: 1234560 Uit: ZWAK! LENGTE HOOFDLETTER KLEINELETTER SPECIAALTEKEN
+    test_cases.append((b"123456", "ZWAK! LENGTE HOOFDLETTER KLEINELETTER SPECIAALTEKEN "))
+    # In: Admin123 Uit: ZWAK! LENGTE SPECIAALTEKEN
+    test_cases.append((b"Admin123", "ZWAK! LENGTE SPECIAALTEKEN "))
+    # In: paswoord2022 Uit: ZWAK! HOOFDLETTER SPECIAALTEKEN
+    test_cases.append((b"paswoord2022", "ZWAK! HOOFDLETTER SPECIAALTEKEN "))
+    # In: mi*IS*SUP3Rc88l   Uit: STERK!
+    test_cases.append((b"mi*IS*SUP3Rc88l", "STERK! "))
+    # In:  mi*IS*SUP3Rc88l    Uit: ZWAK! SPATIE
+    test_cases.append((b" mi*IS*SUP3Rc88l ", "ZWAK! SPATIE "))
+    # In: Paswoord 2022 Uit: ZWAK! SPECIAALTEKEN
+    test_cases.append((b"Paswoord 2022", "ZWAK! SPECIAALTEKEN "))
+    return test_cases
+
+
+# Run all given test_cases
+def run_test_cases(all_tests):
+    print("Alle tests worden uitgevoerd")
+    print("Spaties zijn vervangen door *")
+    for test_nb in range(len(all_tests)):
+        (inp, exp_out) = all_tests[test_nb]
+        test_result = run_one_test_case(inp, exp_out)
+        if test_result:
+            print('Test ' + str(test_nb + 1) + ': Succeeded')
+        else:
+            print('Test ' + str(test_nb + 1) + ': Failed')
+
+
+# Load all test cases and test them
+run_test_cases(get_test_cases())
--- a/2/MI/insertion_sort.py
+++ b/2/MI/insertion_sort.py
@ -0,0 +1,25 @@
+# voorbeeld code
+
+
+def swap(values, i, j):
+    # temp = values[i]
+    # values[i] = values[j]
+    # values[j] = temp
+    values[i], values[j] = values[j], values[i]
+
+def insertion_sort(values):
+    i = 1
+    # INVAR: is_sorted(values[:i])
+    while i < len(values):
+        j = i - 1
+        # INVAR: is_sorted(values[:j+1]) and is_sorted(values[j+1:i+1])
+        while j >= 0 and values[j] > values[j+1]:
+            swap(values, j, j+1)
+            j = j - 1
+        i = i + 1
+    return values # om te testen
+
+assert insertion_sort([]) == []
+assert insertion_sort([1]) == [1]
+assert insertion_sort([2, 1]) == [1, 2]
+assert insertion_sort([7, 2, 1, 4, 5, 3, 6]) == [1, 2, 3, 4, 5, 6, 7]
--- a/2/MI/paswoordchecker_runevanoverloop_v2.py
+++ b/2/MI/paswoordchecker_runevanoverloop_v2.py
@ -0,0 +1,49 @@
+paswoord = input()
+
+CIJFER = "CIJFER "
+HOOFDLETTER = "HOOFDLETTER "
+SPECIAALTEKEN = "SPECIAALTEKEN "
+KLEINELETTER = "KLEINELETTER "
+bevat_spatie = "SPATIE "
+LENGTE = "LENGTE "
+spatie_in_woord = 0
+
+
+for letter in range(len(paswoord)):
+    if paswoord[letter] == " ":
+        spatie_in_woord += 1
+
+    if paswoord[letter].isdigit():
+        CIJFER = ""
+    
+    if paswoord[letter].isupper():
+      
+        HOOFDLETTER = ""
+        
+    if paswoord[letter].islower():      
+        
+        KLEINELETTER = ""
+
+    if not paswoord[letter].isalnum():
+        if paswoord[letter] != " ":
+            SPECIAALTEKEN = ""
+            
+
+aantal_tekens = len(paswoord) - spatie_in_woord
+if aantal_tekens >= 12:
+    LENGTE = ""
+ 
+
+if paswoord[0] == " " or paswoord[-1] == " ":
+    pass
+
+else:
+    bevat_spatie = ""
+
+string = LENGTE + HOOFDLETTER + KLEINELETTER + CIJFER + SPECIAALTEKEN + bevat_spatie
+
+if string == "":
+    print("STERK! ")
+
+else:
+    print("ZWAK! " + string)
--- a/2/MI/selection_sort.py
+++ b/2/MI/selection_sort.py
@ -0,0 +1,27 @@
+def swap(values, i, j):
+    # temp = values[i]
+    # values[i] = values[j]
+    # values[j] = temp
+    values[i], values[j] = values[j], values[i]
+
+def minimum_position(values, start):
+    min_pos = start
+    i = start + 1
+    while i < len(values):
+        if values[i] < values[min_pos]:
+            min_pos = i
+        i = i + 1
+    return min_pos
+
+def selection_sort(values):
+    i = 0
+    while i < len(values):
+        min_pos = minimum_position(values, i)
+        swap(values, i, min_pos)
+        i = i + 1
+    return values  # handig om te testen
+
+assert selection_sort([]) == []
+assert selection_sort([1]) == [1]
+assert selection_sort([2, 1]) == [1, 2]
+assert selection_sort([7, 2, 1, 4, 5, 3, 6]) == [1, 2, 3, 4, 5, 6, 7]
--- a/2/MI/selection_sort_benikmee.py
+++ b/2/MI/selection_sort_benikmee.py
@ -0,0 +1,54 @@
+
+
+
+def swap(values, i, j):
+    # temp = values[i]
+    # values[i] = values[j]
+    # values[j] = temp
+    values[i], values[j] = values[j], values[i]
+
+def minimum_position(values, start, end_links_sort):
+    min_pos = start
+    i = start + 1
+    while i <= end_links_sort:
+        if values[i] < values[min_pos]:
+            min_pos = i
+        i = i + 1
+    return min_pos
+
+def maximum_position(values, end, end_rechts_sort):
+    max_pos = end
+    i = end - 1
+    while i >= end_rechts_sort:
+        if values[i] > values[max_pos]:
+            max_pos = i
+        i = i - 1
+    return max_pos 
+
+
+def selection_sort(values):
+    print("hallo")
+    gem = len(values)/2
+    end_links_sort = round(gem) -1
+    end_rechts_sort = round(gem)
+    print(end_links_sort)
+    print(end_rechts_sort)
+    i = 0
+    j = len(values) - 1
+    while j >= end_rechts_sort or i <= end_links_sort:
+        print("i: ",i)
+        print("j: ",j)  
+        if i <= end_links_sort:
+            min_pos = minimum_position(values, i, end_links_sort)
+        if j >= end_rechts_sort:
+            max_pos = maximum_position(values, j, end_rechts_sort)
+
+        swap(values, i, min_pos)
+        swap(values, j, max_pos)
+        print(values)
+        i = i + 1
+        j = j - 1
+        
+    return values  # handig om te testen
+
+assert selection_sort([7, 2, 1, 4, 5, 3, 6]) == [1, 2, 3, 4, 5, 6, 7]    
--- a/2/Arduino/302_Rune_Vanoverloop_Arduino.pdf
+++ b/2/Arduino/302_Rune_Vanoverloop_Arduino.pdf
--- a/2/Arduino/links_arduino.odt
+++ b/2/Arduino/links_arduino.odt
--- a/2/TussentijdsVerslagVersie2.pdf
+++ b/2/TussentijdsVerslagVersie2.pdf
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
--- a/1_q1444658_poging_2022-03-24-14-23-39_Beoordelingsformulier_tussentijdsverslag.pdf
+++ b/1_q1444658_poging_2022-03-24-14-23-39_Beoordelingsformulier_tussentijdsverslag.pdf
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
--- a/1_q1471301_poging_2022-03-24-18-51-14_feedback_voor_groep302.docx
+++ b/1_q1471301_poging_2022-03-24-18-51-14_feedback_voor_groep302.docx
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
--- a/2/opdracht_1/opdracht_1.ino
+++ b/2/opdracht_1/opdracht_1.ino
@ -0,0 +1,25 @@
+// ------------------------------------------------- globale variabelen definieren ------------------------------------------------
+
+int pinNumber = 12;
+
+// ---------------------------------------------------- setup() en loop () ---------------------------------------------------------
+
+// de setup functie wordt maar een keer uitgevoerd helemaal in het begin!
+void setup(){                
+  // initialiseer alle pinnen van 11 tot en met 13 als output-pin met een for loop.
+  for(int pin=11; pin<=13; pin=pin+1){
+    pinMode(pin, OUTPUT); 
+  } 
+}
+    
+// de loop routine wordt continu uitgevoerd en herhaald
+void loop(){
+  for(int pinNumber=11; pinNumber<=13; pinNumber=pinNumber+1){
+
+  digitalWrite(pinNumber, HIGH);   	// Zet de output van de pin 'pinNumber' hoog. (HIGH komt overeen met 5V)
+  delay(1000);               		    // wacht gedurende 1000ms
+  digitalWrite(pinNumber, LOW);    	// Zet de output van de pin 'pinNumber' laag. (LOW komt overeen met 0V)
+  delay(1000);               		    // wacht gedurende 1000ms
+}}
+
+// ---------------------------------------------------- Eigen functies ---------------------------------------------------------
--- a/2/opdracht_1/sketch.json
+++ b/2/opdracht_1/sketch.json
@ -0,0 +1,9 @@
+{
+  "cpu": {
+    "fqbn": "arduino:avr:mega:cpu=atmega2560",
+    "name": "Arduino Mega or Mega 2560",
+    "type": "serial"
+  },
+  "secrets": [],
+  "included_libs": []
+}
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
--- a/2/opdracht_3/ReadMe.adoc
+++ b/2/opdracht_3/ReadMe.adoc
@ -0,0 +1,58 @@
+:Author: rune583
+:Email: {AuthorEmail}
+:Date: 23/02/2022
+:Revision: version#
+:License: Public Domain
+
+= Project: {Project}
+
+Describe your project
+
+== Step 1: Installation
+Please describe the steps to install this project.
+
+For example:
+
+1. Open this file
+2. Edit as you like
+3. Release to the World!
+
+== Step 2: Assemble the circuit
+
+Assemble the circuit following the diagram layout.png attached to the sketch
+
+== Step 3: Load the code
+
+Upload the code contained in this sketch on to your board
+
+=== Folder structure
+
+....
+ sketch123                => Arduino sketch folder
+  ├── sketch123.ino       => main Arduino file
+  ├── schematics.png      => (optional) an image of the required schematics
+  ├── layout.png          => (optional) an image of the layout
+  └── ReadMe.adoc         => this file
+....
+
+=== License
+This project is released under a {License} License.
+
+=== Contributing
+To contribute to this project please contact rune583 https://id.arduino.cc/rune583
+
+=== BOM
+Add the bill of the materials you need for this project.
+
+|===
+| ID | Part name      | Part number | Quantity
+| R1 | 10k Resistor   | 1234-abcd   | 10
+| L1 | Red LED        | 2345-asdf   | 5
+| A1 | Arduino Zero   | ABX00066    | 1
+|===
+
+
+=== Help
+This document is written in the _AsciiDoc_ format, a markup language to describe documents.
+If you need help you can search the http://www.methods.co.nz/asciidoc[AsciiDoc homepage]
+or consult the http://powerman.name/doc/asciidoc[AsciiDoc cheatsheet]
--- a/2/opdracht_3/opdracht_3.ino
+++ b/2/opdracht_3/opdracht_3.ino
@ -0,0 +1,63 @@
+/*
+
+*/
+
+int minimaleInput = 1;
+int maximaleInput = 3;
+
+
+void setup() {
+  for(int pin=11; pin<=13; pin=pin+1){
+  pinMode(pin, OUTPUT); 
+  Serial.begin(9600);
+  delay(500);
+  
+  Serial.println("Typ een getal in tussen 1 en 3 en een tweede getal voor de tijd");	
+}
+}
+
+void loop(){
+  if (Serial.available()){
+    
+  int receivedvalue = Serial.parseInt();
+  int delay = Serial.parseInt();
+  
+  boolean inputOK1 = validInput1(receivedvalue); // kijk of de input binnen de waardes ligt.
+  boolean inputOK2 = validInput2(delay * 1000);
+
+  if (inputOK1 && inputOK2){
+  led(receivedvalue, delay);
+      }
+  
+  
+  else { 
+    Serial.println("De ingegeven waarde is niet geldig.");
+      }
+  }
+  
+}
+
+
+void led(int input, int time1) {
+  int pinNumber = input + 10;
+  digitalWrite(pinNumber,HIGH);   	// Zet de output van de pin 'pinNumber' hoog. (HIGH komt overeen met 5V)
+  delay(delay);               		    // wacht gedurende 1000ms
+  digitalWrite(pinNumber, LOW);    	// Zet de output van de pin 'pinNumber' laag. (LOW komt overeen met 0V)
+  delay(delay);
+  
+  }
+
+
+boolean validInput1(float input){
+  // && wordt gebruikt als logische 'AND'
+  boolean ok =  (input >= minimaleInput) && (input <= maximaleInput);
+  
+  // geef de boolean ok als resultaat van de functie zodat er mee verder kan gerekend worden.
+  return ok;
+ // for(int pinNumber=11; pinNumber<=13; pinNumber=pinNumber+1){
+}
+ 
+boolean validInput2(float input) {
+   boolean ok = (input >= 0);
+   return ok;
+ }
--- a/2/opdracht_3/sketch.json
+++ b/2/opdracht_3/sketch.json
@ -0,0 +1,9 @@
+{
+  "cpu": {
+    "fqbn": "arduino:avr:mega:cpu=atmega2560",
+    "name": "Arduino Mega or Mega 2560",
+    "type": "serial"
+  },
+  "secrets": [],
+  "included_libs": []
+}
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
--- a/2/opdracht_6/ReadMe.adoc
+++ b/2/opdracht_6/ReadMe.adoc
@ -0,0 +1,58 @@
+:Author: rune583
+:Email: {AuthorEmail}
+:Date: 23/02/2022
+:Revision: version#
+:License: Public Domain
+
+= Project: {Project}
+
+Describe your project
+
+== Step 1: Installation
+Please describe the steps to install this project.
+
+For example:
+
+1. Open this file
+2. Edit as you like
+3. Release to the World!
+
+== Step 2: Assemble the circuit
+
+Assemble the circuit following the diagram layout.png attached to the sketch
+
+== Step 3: Load the code
+
+Upload the code contained in this sketch on to your board
+
+=== Folder structure
+
+....
+ sketch123                => Arduino sketch folder
+  ├── sketch123.ino       => main Arduino file
+  ├── schematics.png      => (optional) an image of the required schematics
+  ├── layout.png          => (optional) an image of the layout
+  └── ReadMe.adoc         => this file
+....
+
+=== License
+This project is released under a {License} License.
+
+=== Contributing
+To contribute to this project please contact rune583 https://id.arduino.cc/rune583
+
+=== BOM
+Add the bill of the materials you need for this project.
+
+|===
+| ID | Part name      | Part number | Quantity
+| R1 | 10k Resistor   | 1234-abcd   | 10
+| L1 | Red LED        | 2345-asdf   | 5
+| A1 | Arduino Zero   | ABX00066    | 1
+|===
+
+
+=== Help
+This document is written in the _AsciiDoc_ format, a markup language to describe documents.
+If you need help you can search the http://www.methods.co.nz/asciidoc[AsciiDoc homepage]
+or consult the http://powerman.name/doc/asciidoc[AsciiDoc cheatsheet]
--- a/2/opdracht_6/opdracht_6.ino
+++ b/2/opdracht_6/opdracht_6.ino
@ -0,0 +1,26 @@
+/*
+
+*/
+int pin = A0;
+
+
+void setup() {
+  Serial.begin(9600);
+  delay(500);
+  Serial.println("Typ \"v" + "om de spanning te meten.");
+  // print text in de seriele monitor
+}
+
+void loop() {
+  if (Serial.available()) {
+      char input = Serial.read();
+  
+  float = value;
+    if (char input == 'v') {
+        value = analogRead(pin);
+        Serial.print((value/(1024))*5);
+        }
+  }
+}
+
+
--- a/2/opdracht_6/sketch.json
+++ b/2/opdracht_6/sketch.json
@ -0,0 +1,9 @@
+{
+  "cpu": {
+    "fqbn": "",
+    "name": "",
+    "type": ""
+  },
+  "secrets": [],
+  "included_libs": []
+}
--- a/Documents/School/SEM
+++ b/Documents/School/SEM
--- a/2/opdracht_8/ReadMe.adoc
+++ b/2/opdracht_8/ReadMe.adoc
@ -0,0 +1,58 @@
+:Author: rune583
+:Email: {AuthorEmail}
+:Date: 25/02/2022
+:Revision: version#
+:License: Public Domain
+
+= Project: {Project}
+
+Describe your project
+
+== Step 1: Installation
+Please describe the steps to install this project.
+
+For example:
+
+1. Open this file
+2. Edit as you like
+3. Release to the World!
+
+== Step 2: Assemble the circuit
+
+Assemble the circuit following the diagram layout.png attached to the sketch
+
+== Step 3: Load the code
+
+Upload the code contained in this sketch on to your board
+
+=== Folder structure
+
+....
+ sketch123                => Arduino sketch folder
+  ├── sketch123.ino       => main Arduino file
+  ├── schematics.png      => (optional) an image of the required schematics
+  ├── layout.png          => (optional) an image of the layout
+  └── ReadMe.adoc         => this file
+....
+
+=== License
+This project is released under a {License} License.
+
+=== Contributing
+To contribute to this project please contact rune583 https://id.arduino.cc/rune583
+
+=== BOM
+Add the bill of the materials you need for this project.
+
+|===
+| ID | Part name      | Part number | Quantity
+| R1 | 10k Resistor   | 1234-abcd   | 10
+| L1 | Red LED        | 2345-asdf   | 5
+| A1 | Arduino Zero   | ABX00066    | 1
+|===
+
+
+=== Help
+This document is written in the _AsciiDoc_ format, a markup language to describe documents.
+If you need help you can search the http://www.methods.co.nz/asciidoc[AsciiDoc homepage]
+or consult the http://powerman.name/doc/asciidoc[AsciiDoc cheatsheet]
--- a/2/opdracht_8/opdracht_8.ino
+++ b/2/opdracht_8/opdracht_8.ino
@ -0,0 +1,33 @@
+int pinNumber = 11;
+
+int analogPin = A0;
+
+int ACTIVATIE_WAARDE = 700;
+
+void setup() {
+  Serial.begin(9600);
+  delay(500);
+ // Serial.println("Typ \"v" + "om de spanning te meten.");
+  // print text in de seriele monitor
+//  Serial.println("");
+  pinMode(pinNumber, OUTPUT);
+}
+
+void loop() {
+  //char input = Serial.read();
+  delay(100);
+  float value;
+  //if (char input == 'v') {
+  value = analogRead(analogPin);
+  if (value <= ACTIVATIE_WAARDE) {
+      digitalWrite(pinNumber, HIGH);
+      
+    }
+  else {
+      digitalWrite(pinNumber, LOW);
+      }
+  
+  Serial.print((value/(1024))*5);
+  Serial.print(" ");
+  delay(1000);
+}
--- a/2/opdracht_8/sketch.json
+++ b/2/opdracht_8/sketch.json
@ -0,0 +1,9 @@
+{
+  "cpu": {
+    "fqbn": "",
+    "name": "",
+    "type": ""
+  },
+  "secrets": [],
+  "included_libs": []
+}