hypergeometric
1. The Six Sigma Black Belt should be familiar with the commonly used probability distributions including: hypergeometric binomial Poisson normal exponential chi-square Student's t and F.
6西格玛黑带应熟悉常用的概率分布,包括超几何分布、二项式分布、泊松分布、正态分布、指数分布、卡方分布、学者t分布和F分布。
2. Relationship between the Apostol-Bernoulli Polynomials and Gaussian Hypergeometric Functions
Apostol-Bernoulli多项式和Gauss超几何函数之间的关系
3. Gaussian hypergeometric funetlon
Gauss超几何函数
4. Guass hypergeometric functions
Guass超几何函数
5. The evaluations of a class of basic hypergeometric series
一类基本超几何级数的估计
6. Some inequalities for the ratios of hypergeometric functions
一类超几何函数比的几个不等式
7. indefinite hypergeometric sum
不定超几何和
8. The number concentration of the activated cloud condensation nuclei (CCN) is described with the hypergeometric function.
云中凝结核CCN的数浓度采用超几何函数表示;
9. On Evaluation of Basic Hypergeometric Series
关于基本超几何级数的估计
10. Some Summation Formula for Hypergeometric Series
几个基本超几何级数公式
11. The summations of several basic hypergeometric series
几个基本超几何级数的求和
12. The HYPGEOMDIST() function returns the hypergeometric distribution.
函数返回超几何分布。
13. Features include Binomial, Poisson, Hypergeometric, Normal, Exponential, Student t, Chi Squared, F, Beta and Lognormal Distributions;
功能包括二项分布,泊松,超几何,正常,指数,学生吨,迟浩田平方,男,试用版数正态分布和分布;
14. confluent hypergeometric function
合流超线几何函数
15. confluent hypergeometric series
合连几何级数
16. confluent hypergeometric equation
合镣超几何微分方程
17. basic hypergeometric series
基本超几何级数
18. Several results of q-analogue of basic hypergeometric series
基本超几何级数q-模拟的几个结果
19. multidimensional hypergeometric
多维超几何的
20. definite hypergeometric sum
定超几何和
21. extended hypergeometric function
广义超几何函数
22. generalized hypergeometric differential equation
广义超几何微分方程, 广义超比微分方程
23. Peoplr usually think that for hypergeometric experiment, the traials are dependent and the probability of success therefore is not constant.
摘要:超几何实验中,每次试行间并不是互相独立,因此有些人以为成功的机率并不像二项实验般是固定不变的。
24. This dissertation studies the applications of the inversion techniques and its equivalent form in finding and proving the hypergeometric series identities.
本文探讨了反演技术及其等价的形式在寻求和证明超几何级数恒等式方面的应用。
25. With the help of a transformation formula of basic hypergeometric functions, known identities, and Jacobi triple, we have established some new Rogers-Ramanujan type identities.
本章借助一个基本超几何函数的变换公式、已知的恒等式以及Jacobi三重积,建立了一些新的Rogers-Ramanujan型恒等式.
26. Hypergeometric function of confluent type
汇合型超几何函数
27. The solutions of some quantum mechanics questions are unified by confluent hypergeometric functions;
用合流超几何函数统一了量子力学若干问题的解法;
28. By using a simple algorithm for the summation of basic hypergeometric series, summation formulas for some basic hypergeometric series are obtained.
用组合学中的求和算子为主要工具 ,研究了幂和的公式 ,得到了一组用组合数表示的幂和公式。
29. Discrete: Bernoulli, Binomial, Discrete Uniform, Geometric, Hypergeometric, Logarithmic, Negative Binomial, Poisson.
离散:伯努利,二项分布,离散均匀,几何,超几何,数,负二项分布,泊松。
30. Hypergeometric function of the second kind
第二类超几何函数
31. some conclutions are reached by hypergeometric functions;
给出了用超几何函数解若干问题的结论;
32. coding hypergeometric structure
编码超几何结构
33. The Six Sigma Black Belt should be familiar with the commonly used probability distributions, including: hypergeometric, binomial, Poisson, normal, exponential, chi-square, Student's t, and F.
西格玛黑带应熟悉常用的概率分布,包括超几何分布、项式分布、松分布、态分布、数分布、方分布、者t分布和F分布。
34. 58. The Six Sigma Black Belt should be familiar with the commonly used probability, including: hypergeometric, binomial, Poisson, normal, exponential, chi-square, Student's t, and F.
译文:六西格玛黑带应该熟悉常用的概率分布,包括超几何分布、二项式分布、泊松分布、下态分布、指数分布、卡方分布、学者t分布和F分布。
35. negative hypergeometric distribution
负超几何分布
36. hypergeometric function
超几何函数 超比函数
37. extension of hypergeometric functions
超几何函数的开拓
38. hypergeometric distribution
超几何分布
39. hypergeometric type
超几何型
40. hypergeometric polynomial
超几何多项式
41. hypergeometric tail-area probability
超几何尾区概率
42. hypergeometric power series
超几何幂级数
43. hypergeometric differential equation
超几何微分方程
44. hypergeometric equatin
超几何方程
45. hypergeometric curve
超几何曲线
46. hypergeometric integral
超几何积分 超比积分
47. hypergeometric waiting time distribution
超几何等待时间分布
48. hypergeometric progression
超几何级数
49. Two Results of the Summations for Hypergeometric Series
超几何级数求和的两个结果
50. hypergeometric equation
超比方程 高斯微分方程
51. hypergeometric series
超越几何级数 超几何级数 超比级数
52. contiguous confluent hypergeometric function
连接合连几何函数
53. contiguous hypergeometric function
连接超几何函数
54. explain confluent hypergeometric functions and hypergeometric functions are better model functions by the relations between the two kinds of functions in common use functions.
通过超几何函数、合流超几何函数与常用函数的关系说明它们是很好的原型函数。
55. C=0 plans used hypergeometric distribution originally to maximize mathematical accuracy . The most important feature of the plans is the philosophy of zero defects .
零接受抽样计划是参照超几何分布而成,目的是将计算的精准度提高,最重要的就是零缺陷的哲学.
56. Gaussian hypergeometric functions
高斯超几何函数
57. Gauss hypergeometric differential equatio
高斯超几何微分方程
58. Gauss hypergeometric equation
高斯超几何方程
59. Gaussian hypergeometric function
高斯超越几何函数
60. hypergeometric series of higher order
高阶超几何级数