−2
| ||||
---|---|---|---|---|
| ||||
命名 | ||||
小写 | 负二 | |||
大写 | 负贰 | |||
序数词 | 第负二 negative second | |||
识别 | ||||
种类 | 整数 | |||
性质 | ||||
质因数分解 | 一般不做质因数分解 | |||
高斯整数分解 | ||||
因数 | 1、2 | |||
绝对值 | 2 | |||
相反数 | 2 | |||
表示方式 | ||||
值 | -2 | |||
算筹 | ||||
二进制 | −10(2) | |||
三进制 | −2(3) | |||
四进制 | −2(4) | |||
五进制 | −2(5) | |||
八进制 | −2(8) | |||
十二进制 | −2(12) | |||
十六进制 | −2(16) | |||
高斯整数导航 | ||||||
---|---|---|---|---|---|---|
↑ | ||||||
2i | ||||||
−1+i | i | 1+i | ||||
← | −2 | −1 | 0 | 1 | 2 | → |
−1−i | −i | 1−i | ||||
−2i | ||||||
↓ |
在数学中,负二是距离原点两个单位的负整数[1],记作−2[2]或−2[3],是2的加法逆元或相反数,介于−3与−1之间,亦是最大的负偶数。除了少数探讨整环质元素的情况外[4],一般不会将负二视为质数[5]。
负二有时会做为幂次表达平方倒数,用于国际单位制基本单位的表示法中,如m s-2[6]。此外,在部份领域如软体设计,负一通常会作为函数的无效回传值[7],类似地负二有时也会用于表达除负一外的其他无效情况[8],例如在整数数列线上大全中,负一作为不存在、负二作为此解是无穷[9][10]。
性质
[编辑]- 负二为第二大的负整数[11][12]。最大的负整数为负一。因此部分量表会使用负二作为仅次于负一的分数或权重。[13]
- 负二为负数中最大的偶数,同时也是负数中最大的单偶数。
- 负二为格莱舍χ数(OEIS数列A002171)[14]
- 负二为第6个扩充贝尔数[15](complementary Bell number,或称Rao Uppuluri-Carpenter numbers )(OEIS数列A000587),前一个是1后一个是-9。[16]
- 负二为最大的僵尸数[17],即位数和(首位含负号)的平方与自身的和大于零的负数[17]。前一个为-3(OEIS数列A328933)。所有负数中,只有26个整数有此种性质[17]。
- 负二为最大能使的负整数[18]。
- 负二能使二次域的类数为1,亦即其整数环为唯一分解整环[注 1][19]。而根据史塔克-黑格纳理论,有此性质的负数只有9个[20][21][22],其对应的自然数称为黑格纳数[23]。
- 负二为从1开始使用加法、减法或乘法在2步内无法达到的最大负数[28]。1步内无法达到的最大负数是负一、3步内无法达到的最大负数是负四(OEIS数列A229686)[28]。这个问题为直线问题与加法、减法和乘法的结合[29],其透过整数的运算难度对NP = P与否在代数上进行探讨[30]。
- 负二为2阶的埃尔米特数[31],即[32]。
- [34],同时满足,即。此外,当为2和3时结果也为负二[35]。
- 负二能使k(k+1)(k+2)为三角形数[36]。所有整数只有9个数有此种性质[37],而负二是有此种性质的最小整数。这9个整数分别为-2, -1, 0, 1, 4, 5, 9, 56和636(OEIS数列A165519)[37]。
- 负二为立方体下闭集合中欧拉示性数的最小值[38]。
负二的因数
[编辑]负二的拥有的因数若负因数也列入计算则与二的因数(含负因数)相同,为-2、-1、1、2。根据定义一般不对负数进行质因数分解,虽然能将提出来[39]计为,因此2可以视为负二的质因数,但不能作为负二的质因数分解结果。虽然不能对负二进行整数分解,由于负二是一个高斯整数,因此可以对负二进行高斯整数分解,结果为,其中为高斯质数[40]、为虚数单位。
负二的幂
[编辑]由于已知的技术原因,图表暂时不可用。带来不便,我们深表歉意。 |
负二的前几次幂为 -2、4、-8、16、-32、64、-128 (OEIS数列A122803)正负震荡[41],其中正的部分为四的幂、负的部分与四的幂差负二倍[42],因此这种特性使得负二成为作为底数可以不使用负号、二补数等辅助方式表示全体实数的最大负数[41][43][44][45],并在1957年间有部分计算机采用负二为底之进位制的数字运算进行设计[46],类似地,使用2i则能表达复数[47]。
负二的幂之和是一个发散几何级数。虽然其结果发散,但仍可以求得其广义之和,其值为1/3[48][49]。
在首项a = 1且公比r = −2时,上述公式的结果为1/3。然而这个级数应为发散级数,其前几项的和为[51]:
这个级数虽然发散,然而欧拉对这个级数的结果给出了一个值,即1/3[52],而这个和称为欧拉之和[53]。
负二次幂
[编辑]由于已知的技术原因,图表暂时不可用。带来不便,我们深表歉意。 |
若一数的幂为负二次,则其可以视为平方的倒数,这个部分用于函数也适用[54],而日常生活中偶尔会用于表示不带除号的单位,如加速度一般计为m/s2,而在国际单位制基本单位的表示法中也可以计为 m s-2[6]。
而平方倒数中较常讨论的议题包括对任意实数而言,其平方倒数结果恒正、平方反比定律[56]、网格湍流衰减[57]以及巴塞尔问题[58]。其中巴塞尔问题指的是自然数的负二次方和(平方倒数和)会收敛并趋近于,即[59][58]:
对任意实数而言,平方倒数的结果恒正。例如负二的平方倒数为四分之一。前几个自然数的平方倒数为:
平方倒数 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 |
---|---|---|---|---|---|---|---|---|---|---|
1 | ||||||||||
1 | 0.25 | 0.0625 | 0.04 | 0.0204081632....[注 3] | 0.015625 | 0.01 |
负二的平方根
[编辑]负二的平方根在定义虚数单位满足后可透过等式得出,而对负二而言,则为[注 4][62][64][65][66]。而负二平方根的主值为[注 5]。
表示方法
[编辑]负二通常以在2前方加入负号表示[67],通常称为“负二”或大写“负贰”,但不应读作“减二”[68],而在某些场合中,会以“零下二”[69][70]表达-2,例如在表达温度时[71]。
在二进制时,尤其是计算机运算,负数的表示通常会以二补数来表示[72],即将所有位数填上1,再向下减。此时,负二计为“......11111110(2)”,更具体的,4位元整数负二计为“1110(2)”;8位元整数负二计为“11111110(2)”;16位元整数负二计为“1111111111111110(2)”[73]而在使用负号的表示法中,负二计为“-10(2)”[74]。
在其他领域中
[编辑]正负二
[编辑]正负二()是透过正负号表达正二与负二的方式,其可以用来表示4的平方根或二次方程的解,即。正负二比负二更常出现于文化中,例如一些音乐创作[79]或者纪录片《±2℃》讲述全球气温提升或降低两度对环境可能造成的影响[80][81]。
参见
[编辑]注释
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