Baesian rule - определение. Что такое Baesian rule
Diclib.com
Словарь ChatGPT
Введите слово или словосочетание на любом языке 👆
Язык:

Перевод и анализ слов искусственным интеллектом ChatGPT

На этой странице Вы можете получить подробный анализ слова или словосочетания, произведенный с помощью лучшей на сегодняшний день технологии искусственного интеллекта:

  • как употребляется слово
  • частота употребления
  • используется оно чаще в устной или письменной речи
  • варианты перевода слова
  • примеры употребления (несколько фраз с переводом)
  • этимология

Что (кто) такое Baesian rule - определение

RULE THAT USES DERIVATIVES TO HELP EVALUATE LIMITS INVOLVING INDETERMINATE FORMS
LHospitals rule; LHospital's rule; L'Hopital's rule; LHopital's rule; L'Hospital's rule; LHopitals rule; L'hopital's rule; L'Hopital's Rule; L'Hôspital's rule; L'hopitals rule; L'Hospital's Rule; L'Hospital rule; Wopitals rule; L'Hôpital's Rule; L’Hospital’s rule; L'hospital's rule; L'hôpital's rule; L'Hopital rule; L'Hôpital rule; Hopital's rule; De L'Hospital's Rule; Bernoulli's rule; L' Hopital's Rule; Hospitals rule; Lhopitals rule; Rule of L'Hôpital
  • ''g''′(0)}} = −2}}.

Zaitsev's rule         
  • 77px
  • 60px
  • 75px
  • 60px
  • Alexander Mikhaylovich Zaitsev
  • 339px
  • 579px
  • 310px
  • 322px
  • 346px
  • 315px
EMPIRICAL RULE PREDICTING THE MAJOR PRODUCT(S) IN ELIMINATION REACTION
Saytzeff's rule; Zaitsev's Rule; Zaitsev's product; Saytzeff rule; Saytzeff's Rule; Saytzev's rule; Zaytsev product; Saytzeff Rule; Zaitsev rule; Saytsev's rule; Saytsev rule
In organic chemistry, Zaitsev's rule (or Saytzeff's rule, Saytzev's rule) is an empirical rule for predicting the favored alkene product(s) in elimination reactions. While at the University of Kazan, Russian chemist Alexander Zaitsev studied a variety of different elimination reactions and observed a general trend in the resulting alkenes.
mail box rule         
RULE REGARDING ACCEPTANCE BY POST OF OFFERS IN ANGLO-AMERICAN CONTRACT LAW
Mail box rule; Postal acceptance rule; Postal rule; Postage rule; Deposited acceptance rule; Mailbox rule; Postal exception
n. in contract law, making a written offer or acceptance of offer valid if sent in the mail, with postage, within the time in which the offer must be accepted, unless the offer requires acceptance by personal delivery on or before the specified date. The rule may also apply to mailing payments of insurance premiums when due. However, relying on this so-called "rule" can be dangerous, since the party awaiting the acceptance or payment may cancel the offer if there is no response in hand when the time runs out.
Posting rule         
RULE REGARDING ACCEPTANCE BY POST OF OFFERS IN ANGLO-AMERICAN CONTRACT LAW
Mail box rule; Postal acceptance rule; Postal rule; Postage rule; Deposited acceptance rule; Mailbox rule; Postal exception
The posting rule (or mailbox rule in the United States, also known as the "postal rule" or "deposited acceptance rule") is an exception to the general rule of contract law in common law countries that acceptance of an offer takes place when communicated. Under the posting rule, that acceptance takes effect when a letter is posted (that is, dropped in a post box or handed to a postal worker); the post office will be the universal service provider, such as the UK's Royal Mail, the Australia Post, or the United States Postal Service.

Википедия

L'Hôpital's rule

L'Hôpital's rule (, loh-pee-TAHL), also known as Bernoulli's rule, is a mathematical theorem that allows evaluating limits of indeterminate forms using derivatives. Application (or repeated application) of the rule often converts an indeterminate form to an expression that can be easily evaluated by substitution. The rule is named after the 17th-century French mathematician Guillaume de l'Hôpital. Although the rule is often attributed to l'Hôpital, the theorem was first introduced to him in 1694 by the Swiss mathematician Johann Bernoulli.

L'Hôpital's rule states that for functions f and g which are differentiable on an open interval I except possibly at a point c contained in I, if lim x c f ( x ) = lim x c g ( x ) = 0  or  ± , {\textstyle \lim _{x\to c}f(x)=\lim _{x\to c}g(x)=0{\text{ or }}\pm \infty ,} and g ( x ) 0 {\textstyle g'(x)\neq 0} for all x in I with xc, and lim x c f ( x ) g ( x ) {\textstyle \lim _{x\to c}{\frac {f'(x)}{g'(x)}}} exists, then

lim x c f ( x ) g ( x ) = lim x c f ( x ) g ( x ) . {\displaystyle \lim _{x\to c}{\frac {f(x)}{g(x)}}=\lim _{x\to c}{\frac {f'(x)}{g'(x)}}.}

The differentiation of the numerator and denominator often simplifies the quotient or converts it to a limit that can be evaluated directly.