Ii amaliy (1 ta masala tushadi, dastur tuziladi)
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II – Amaliy (1 ta masala tushadi, dastur tuziladi) Natural n soni va A(1:n) haqiqiy sonlar to’plami berilgan. Berilgan sonlarning eng kichigini va unig o’rnini toping. n = int(input("Natural sonning sonini kiriting: ")) A = [] for i in range(n): A.append(float(input(f"{i+1}-chi haqiqiy sonni kiriting: "))) min_value = min(A) min_index = A.index(min_value) print(f"Eng kichik son: {min_value}, uning indeksi: {min_index}") Natural n soni va A(1:n) haqiqiy sonlar to’plami berilgan. Berilgan sonlarning o’rta arifmetik qiymatini toping. n = int(input("Natural sonning sonini kiriting: ")) A = [] for i in range(n): A.append(float(input(f"{i+1}-chi haqiqiy sonni kiriting: "))) avg_value = sum(A) / n print(f"Berilgan sonlar o'rta arifmetik qiymati: {avg_value}")
Natural n soni va a1, a2, ..., an haqiqiy sonlar berilgan. max(a1, ..., an) ga teng bo‘lgan elementdan oldingi barcha elementlar ko‘paytmasini toping. n = int(input("Natural sonni kiriting: ")) A = [] for i in range(n): A.append(float(input(f"{i+1}-chi haqiqiy sonni kiriting: "))) max_value = max(A) max_index = A.index(max_value) product = 1 for i in range(max_index): if A[i] < max_value: product *= A[i] print(f"max(a1, ..., an) ga teng bo‘lgan elementdan oldingi barcha elementlar ko‘paytmasi: {product}") Natural n soni va A(1:n) butun sonlar jadvali berilgan. Undagi tartib nomeri toq, o‘zi juft bo‘lgan elementlarning yig‘indisi topilsin. n = int(input("Natural sonni kiriting: ")) A = [] for i in range(n): A.append(int(input(f"{i+1}-chi butun sonni kiriting: "))) sum_value = 0 for i in range(n): if i % 2 == 0 and A[i] % 2 == 0: sum_value += A[i] print(f"Tartib nomeri toq, o‘zi juft bo‘lgan elementlarning yig‘indisi: {sum_value}") O‘zaro har xil bo‘lgan a1, a2, ..., a20 haqiqiy sonlar ketma-ketligi berilgan. Bu ketme-ketlikning eng katta va kichik elementlari o‘rinlarini almashtirilsin. A = [] for i in range(20): A.append(float(input(f"{i+1}-chi haqiqiy sonni kiriting: "))) max_value = max(A) min_value = min(A) max_index = A.index(max_value) min_index = A.index(min_value) A[max_index], A[min_index] = A[min_index], A[max_index] print(f"barcha ketma-ketlikning eng katta va kichik elementlari o‘rinlarini almashtirildi: {A}")
Vektorning o'rtacha, minimal va maksimal qiymatlarini hisoblash dasturini yozing (funksiya yarating). def vector_stats(vector): mean = sum(vector) / len(vector) minimum = min(vector) maximum = max(vector) return mean, minimum, maximum vector = [2.6, 5.8, 1.3, 4.7, 3.2] mean, minimum, maximum = vector_stats(vector)
Vektor qiymatlari bo'yicha dispersiyani hisoblash dasturini yozing (funksiya yarating). def vector_variance(vector): mean = sum(vector) / len(vector) diffs_sq = [(x - mean) ** 2 for x in vector] variance = sum(diffs_sq) / len(vector) return variance vector = [2.6, 5.8, 1.3, 4.7, 3.2] variance = vector_variance(vector)
X va Y vektorlar uchun korrelyatsiya koeffitsientini hisoblash dasturini yozing (funksiya yarating) def correlation_coefficient(X, Y): n = len(X) mean_X = sum(X) / n mean_Y = sum(Y) / n numerator = sum([(X[i] - mean_X) * (Y[i] - mean_Y) for i in range(n)]) denominator_X = sum([(X[i] - mean_X)**2 for i in range(n)]) denominator_Y = sum([(Y[i] - mean_Y)**2 for i in range(n)]) denominator = (denominator_X * denominator_Y)**0.5 correlation = numerator / denominator return correlation X = [3, 1, 4, 2, 5] Y = [2, 3, 5, 1, 4] # call the function and print the result correlation = correlation_coefficient(X, Y) print(f"Vektorlar X va Y uchun korrelyatsiya koeffitsienti: {correlation}") Yüklə 20,01 Kb. Dostları ilə paylaş:
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