正剧开始:
星历2016年04月16日 16:00:58, 银河系厄尔斯星球中华帝国江南行省。
[工程师阿伟]正在和[机器小伟]一起研究[数列]。
[人叫板老师]用了这种表示人文关怀的绿色标关键字,真是有一种恰得其反的效果,
小伟要用放大镜才能看出这写的是啥呀。
<span style="font-size:18px;">>>> 1 1 2 3 5 8 13 21 34 55 89 144 233 377 610 987 1597 2584 4181 6765 ----- 20 ----- def fib(N): if (N < 2): return 1; else: return fib(N-1)+fib(N-2); def tmp(): for i in range(1000): a = fib(i); if (a > 10000): print('-----', i, '-----'); break; print(a); </span>
这可以说是求值的最没效率的算法了。
<span style="font-size:18px;">>>> 1.4 1.41 1.414 1.4142 1.41421 1.414213 def sqrt2(): a = 1; D = 0.1; prec = 1; while (D > 0.000001): while (a+D)*(a+D) <= 2: a += D; print(round(a, prec)); D/=10; prec+=1; def tmp(): sqrt2();</span>
<span style="font-size:18px;"> if (1) { var r = 20; config.setSector(1,1,1,1); config.graphPaper2D(0, 0, r); config.axis2D(0, 0,190); //坐标轴设定 var scaleX = 2*r, scaleY = 2*r; var spaceX = 2, spaceY = 4; var xS = -10, xE = 10; var yS = -10, yE = 20; config.axisSpacing(xS, xE, spaceX, scaleX, 'X'); config.axisSpacing(yS, yE, spaceY, scaleY, 'Y'); var array = []; var a0 = 1, d = 4, aN = a0; for (var i = 0; i < 5; i++) { array.push([i, aN]); aN += d; } var size = array.length; var transform = new Transform(); var tmp = []; array = transform.scale(transform.translate(array, 0, 0), scaleX/spaceX, scaleY/spaceY); tmp = [].concat(array); vectorDraw(tmp, 'red'); tmp = [].concat(array); shape.pointDraw(tmp, 'orange', 1, 1); plot.setFillStyle('blue'); plot.fillText('等差数列', -270, -170, 300); }</span>
<span style="font-size:18px;">>>> 等差数列: [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100] 前100项和是:5050 #等差数列 def arithmeticSequence(a0, d, N): seq = []; for i in range(N): seq.append(a0); a0 += d; print('等差数列: ', seq); print('前{0}项和是:{1}'.format(N, sum(seq))); def tmp(): a0 = 1; d = 1; N = 100; arithmeticSequence(a0, d, N); </span>
<span style="font-size:18px;">>>> 等差数列: [500, 550, 600, 650, 700, 750, 800, 850, 900, 950] 前10项和是:7250 def tmp(): a0 = 500; d = 50; N = 10; arithmeticSequence(a0, d, N);</span>
<span style="font-size:18px;">>>> 当N取9时, 和已经会开始变小了。由19.999999999999993 -> 19.285714285714278。 #等差数列 def arithmeticSequence(a0, d, N): seq = []; for i in range(N): seq.append(a0); a0 += d; #print('等差数列: ', seq); #print('前{0}项和是:{1}'.format(N, sum(seq))); return sum(seq); def tmp(): a0 = 5; d = 4+2/7-5; result = []; N = 1; result.append(arithmeticSequence(a0, d, N)); while (N < 10): N+=1; result.append(arithmeticSequence(a0, d, N)); if (result[-1] < result[-2]): print('当N取{0}时, 和已经会开始变小了。由{1} -> {2}。'.format(N, result[-2], result[-1])); break;</span>
<span style="font-size:18px;">>>> 等比数列: [1, 0.84, 0.7055999999999999, 0.5927039999999999, 0.4978713599999999] 前5项和是:3.6361753599999997 #等比数列 def geometricSequence(a0, q, N): seq = []; for i in range(N): seq.append(a0); a0 *= q; print('等比数列: ', seq); print('前{0}项和是:{1}'.format(N, sum(seq))); #return sum(seq); def tmp(): a0 = 1; q = 0.84; N = 5; geometricSequence(a0, q, N);</span>
<span style="font-size:18px;"> if (1) { var r = 20; config.setSector(1,1,1,1); config.graphPaper2D(0, 0, r); config.axis2D(0, 0,190); //坐标轴设定 var scaleX = 4*r, scaleY = 2*r; var spaceX = 2, spaceY = 0.25; var xS = -10, xE = 10; var yS = -1, yE = 1; config.axisSpacing(xS, xE, spaceX, scaleX, 'X'); config.axisSpacing(yS, yE, spaceY, scaleY, 'Y'); var array = []; var a0 = 1, q = 0.81, aN = a0; for (var i = 0; i < 8; i++) { array.push([i, aN]); aN *= q; } var size = array.length; var transform = new Transform(); var tmp = []; array = transform.scale(transform.translate(array, 0, 0), scaleX/spaceX, scaleY/spaceY); tmp = [].concat(array); vectorDraw(tmp, 'red'); tmp = [].concat(array); shape.pointDraw(tmp, 'orange', 1, 1); plot.setFillStyle('blue'); plot.fillText('等比数列', -270, -170, 300); } </span>
<span style="font-size:18px;">>>> 等比数列: [0.5, 0.25, 0.125, 0.0625, 0.03125, 0.015625, 0.0078125, 0.00390625] 前8项和是:0.99609375 等比数列: [27, -9.0, 3.0, -1.0, 0.3333333333333333, -0.1111111111111111, 0.037037037037037035, -0.012345679012345678] 前8项和是:20.246913580246915 >>> 1/243 0.00411522633744856 >>> 1640/81 20.246913580246915 #等比数列 def geometricSequence(a0, q, N): seq = []; for i in range(N): seq.append(a0); a0 *= q; print('等比数列: ', seq); print('前{0}项和是:{1}'.format(N, sum(seq))); #return sum(seq); def tmp(): a0 = 1/2; q = 0.5; N = 8; geometricSequence(a0, q, N); a0 = 27; q = -math.pow(1/243/a0, 1/8); N = 8; geometricSequence(a0, q, N); </span>
<span style="font-size:18px;">>>> 输入划分的块数N, N越大结果越准确:3 k, aN, sum = 1, 8.0, 8.0 k, aN, sum = 2, 5.0, 13.0 >>> ================================ RESTART ================================ >>> 输入划分的块数N, N越大结果越准确:10 k, aN, sum = 1, 2.673, 2.673 k, aN, sum = 2, 2.592, 5.265000000000001 k, aN, sum = 3, 2.457, 7.722 k, aN, sum = 4, 2.268, 9.99 k, aN, sum = 5, 2.025, 12.015 k, aN, sum = 6, 1.7280000000000002, 13.743 k, aN, sum = 7, 1.377, 15.120000000000001 k, aN, sum = 8, 0.9720000000000001, 16.092000000000002 k, aN, sum = 9, 0.5129999999999997, 16.605 def tmp(): sum_ = 0; k = 1; N = int(input('输入划分的块数N, N越大结果越准确:')); while k<=N-1: aN = (9-math.pow((k*3/N), 2))*3/N; sum_ += aN; print('k, aN, sum = {0}, {1}, {2}'.format(k, aN, sum_)); k+=1; </span>
<span style="font-size:18px;">>>> 输入划分的块数N, N越大结果越准确:16 k, aN, sum = 1, 1.680908203125, 1.680908203125 k, aN, sum = 2, 1.6611328125, 3.342041015625 k, aN, sum = 3, 1.628173828125, 4.97021484375 k, aN, sum = 4, 1.58203125, 6.55224609375 k, aN, sum = 5, 1.522705078125, 8.074951171875 k, aN, sum = 6, 1.4501953125, 9.525146484375 k, aN, sum = 7, 1.364501953125, 10.8896484375 k, aN, sum = 8, 1.265625, 12.1552734375 k, aN, sum = 9, 1.153564453125, 13.308837890625 k, aN, sum = 10, 1.0283203125, 14.337158203125 k, aN, sum = 11, 0.889892578125, 15.22705078125 k, aN, sum = 12, 0.73828125, 15.96533203125 k, aN, sum = 13, 0.573486328125, 16.538818359375 k, aN, sum = 14, 0.3955078125, 16.934326171875 k, aN, sum = 15, 0.204345703125, 17.138671875</span>
<span style="font-size:18px;">>>> 面积为: 17.999996499501062 def tmp(): sum_ = 0; x0 = 0; dx = 0.001; while x0 <= 3: y0 = 9-math.pow(x0, 2); y1 = 9-math.pow(x0+dx, 2); sum_ += (y0+y1)/2*dx; x0+=dx; print('面积为:', sum_);</span>
9x-1/3x^3 | [0, 3] = 18
这个九连环,阿伟小时候一直很想玩,可惜一直没能如愿,
现在看来,不光这游戏难玩得要命,光这解答就这么的难懂。
<span style="font-size:18px;">>>> 0 1 2 5.0 10.0 21.0 42.0 85.0 170.0 341.0 #九连环 def nineRing(N = 9): if N == 0: return 0; elif N == 1: return 1; elif N == 2: return 2; else: return math.pow(2, N-1)+nineRing(N-2); def tmp(): for i in range(10):</span>
<span style="font-size:18px;">>>> 0 1 2 5.0 10.0 21.0 42.0 85.0 170.0 341.0 682.0 1365.0 2730.0 5461.0 10922.0 21845.0 43690.0 87381.0 174762.0 349525.0</span>
[人叫板老师]虽然已经够与时俱进了,但很明显在这件事情上还是远远落后了,
1500元,后面再加个0,差不多能买一平米,还不能挑地方。
所以这个题,小伟连算的兴趣都没有了。
本节到此结束,欲知后事如何,请看下回分解。