187 lines
4.5 KiB
Python
187 lines
4.5 KiB
Python
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# 1
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age:int = 20
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# 2
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height: float = 1.76
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# 3
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complexNum: complex = 1 + 3j
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def areaOfTriangle(base:float, height: float) -> float:
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return (0.5*base*height)
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def sideOfTriangle(a: int, b: int, c: int) -> int:
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return (a+b+c)
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def dataOfRectangle(length: float, width: float) -> [float, float]:
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return [length*width, (2*(length+width))]
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def dataOfCircle(radius:float) -> [float, float]:
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pi = 3.14
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return [pi * (radius**2), pi*(radius*2)]
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def slopeOne(a:float, b:float) -> (float,float,float):
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slope = a
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y_inter= b
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x_inter= -b/a if a != 0 else None
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return (slope, x_inter, y_inter)
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def slopeBtwePnt(p1:float, p2:float) -> float:
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x1, y1 = p1
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x2, y2 = p2
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return (y2-y1)/(x2-x1)
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def eucDist(p1:float,p2:float) -> float:
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x1,y1 = p1
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x2,y2 = p2
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return ((x2 - x1)**2 + (y2 - y1)**2)**(1/2)
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def f(x:float):
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return ((x*x) + (6*x) + 9)
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def findLength(string1: str, string2:str) -> bool:
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return (len(string1) == len(string2))
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def onIsInSentence(string1: str, string2:str) -> bool:
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return ("on" in string1 and "on" in string2)
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def isInSentence(string1:str, string2:str) -> bool:
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return (string1 in string2)
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def convertLenght(string: str) -> str:
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return (str)((float)(len(string)))
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def divAndRem(number:int) -> bool:
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return (number % 2 == 0)
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def floorDiv(num1:int,num2:int) -> bool:
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return (num1 // num2 == int(2.7))
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def typeCheck(element1, element2) -> bool:
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return (type(element1) == type(element2))
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def checkIntnFloat(element1:str, element2:int) -> bool:
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return (int(float(element1)) == element2)
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def payment(hours: int, rate: float) -> float:
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return hours*rate*7
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def secondsLived(years: int):
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return years*365.25*24*60*60
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def table(num: int):
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new_list = [num,1]
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for i in range(3):
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new_list.append(new_list[-1]*new_list[0])
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return new_list
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# 4
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tri_base = int(input("Enter base: "))
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tri_heig = int(input("enter height: "))
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print("The area of triangle is:", areaOfTriangle(tri_base, tri_heig))
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# 5
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tri_a = int(input("Enter side a: "))
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tri_b = int(input("Enter side b: "))
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tri_c = int(input("Enter side c: "))
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print("The perimeter of triangle is:", sideOfTriangle(tri_a,tri_b,tri_c))
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# 6
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rec_w = int(input("\nEnter width of rectangle: "))
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rec_h = int(input("Enter height of rectangle: "))
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recData = dataOfRectangle(rec_w,rec_h)
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print(f"Area of rectangle is {recData[0]}\nPerimeter of rectangle is {recData[1]}.\n")
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# 7
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cir_radius = int(input("Enter radius of a circle: "))
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dataCir = dataOfCircle(cir_radius)
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print(f"Area of circle: {dataCir[0]}\nCircumference of circle is: {dataCir[1]}\n")
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# 8, 9, 10 SLOPE
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m1,x_int,y_int = slopeOne(2,-2)
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m2= slopeBtwePnt((2,2),(6,10))
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dist = eucDist((2,2),(6,10))
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print(f"Slope1: {m1}\nx-intercept: {x_int}\ny-intercept: {y_int}")
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print(f"Slope2: {m2}\nDistance: {dist}")
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print(f"Are slops ecual? {m1==m2}\n")
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# 11 VALUE OF Y
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print(f"y = {f(2)}")
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print(f"{f(-3)} = 0\n")
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# 12 LENGTH AND COMPARISON
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l_str1 = "python"
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l_str2 = "dragon"
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print(f"are {l_str1} and {l_str2} equal?", findLength(l_str1, l_str2))
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# 13 AND
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print(f"is 'on' in {l_str1} and in {l_str2}?", onIsInSentence(l_str1,l_str2))
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print()
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# 14 substrings
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string = "I hope this course is not full of jargon"
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substring = "jargon"
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print(f"is {substring} in {string}", isInSentence(substring, string))
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print()
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# 15 NOT
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print(f"is 'on' not in {l_str1} and in {l_str2}?", not onIsInSentence(l_str1,l_str2))
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# 16 Convert length to float and then to string
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convertedLength = convertLenght(l_str1)
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print(f"Length in {l_str1} is\n{type(convertedLength)} -> {convertedLength}")
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# 18 Floor Division
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floor_num1 = 7
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floor_num2 = 3
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print(f"Floor division for {floor_num1} and {floor_num2} is ecual to integer for '2.7'", floorDiv(floor_num1,floor_num2))
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print()
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# 17 Evenness
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test_even_number = 4
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print(f"is {test_even_number} even?", divAndRem(4))
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print()
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# 19 Type equal
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tyec_val1 = '10'
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tyec_val2 = 10
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print(f"Are {tyec_val1} and {tyec_val2} types equal? {typeCheck(tyec_val1,tyec_val2)}")
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print()
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# 20 integer equal
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intec_val1 = '9.8'
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intec_val2 = 10
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print(f"is {intec_val1} equal to {intec_val2}?", checkIntnFloat(intec_val1,intec_val2))
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print()
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# 23 Lists
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print(table(1))
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print(table(2))
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print(table(3))
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print(table(4))
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print(table(5))
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print()
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# 21 Weekly payments
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hours = int(input("Enter hours: "))
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rate = float(input("Enter rate per hour: "))
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print(f"Your weekly earning is: {payment(hours, rate)}")
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print()
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# 22 Years lived
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years_lived = int(input("Enter number of years you lived: "))
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print(f"You have lived for {secondsLived(years_lived)} seconds aproximately")
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print()
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