Received: from 173-13-139-235-sfba.hfc.comcastbusiness.net ([173.13.139.235]:41856 helo=jukni.digitalkingdom.org) by stodi.digitalkingdom.org with smtp (Exim 4.85) (envelope-from ) id 1aKkNn-00009t-TX; Sun, 17 Jan 2016 02:16:33 -0800 Received: by jukni.digitalkingdom.org (sSMTP sendmail emulation); Sun, 17 Jan 2016 02:16:27 -0800 From: "Apache" Date: Sun, 17 Jan 2016 02:16:27 -0800 To: webmaster@lojban.org, curtis289@att.net Subject: [jvsw] Definition Edited At Word grixonbybi'otei -- By krtisfranks Bcc: jbovlaste-admin@lojban.org Message-ID: <569b69fb.PWZa2KBC8YuBLkgp%webmaster@lojban.org> User-Agent: Heirloom mailx 12.5 7/5/10 MIME-Version: 1.0 Content-Type: text/plain; charset=us-ascii Content-Transfer-Encoding: 7bit X-Spam-Score: 0.5 (/) X-Spam_score: 0.5 X-Spam_score_int: 5 X-Spam_bar: / X-Spam-Report: Spam detection software, running on the system "stodi.digitalkingdom.org", has NOT identified this incoming email as spam. The original message has been attached to this so you can view it or label similar future email. If you have any questions, see the administrator of that system for details. Content preview: In jbovlaste, the user krtisfranks has edited a definition of "grixonbybi'otei" in the language "English". Differences: 2,2c2,2 < $x_1 = t_1$ is the elapsed time required for decaying/diminishing/reducing/shrinking population $x_2 = g_1$ to decrease in number by exactly/approximately $1/(x_3)$ from that which is considered to be the initial population size, where $x_3$ [li; default: 1] is a positive real number, according to standard/under condition/by model/in experiment $x_4$; $x_1$ is the $(x_3^{(-1)})$-th-life of population/sample $x_2$; the (approximate) one-$x_3$-th-ing/$(x_3)$-fold decrease(/increase) of population $x_2$ takes approximately $x_1$ (time). --- > $x_1 = t_1$ is the elapsed time required for decaying/diminishing/reducing/shrinking population $x_2 = g_1$ to decrease in number by a factor of exactly/approximately $1/(x_3)$ from that which is considered to be the initial population size, where $x_3$ [li; default: 1] is a positive real number, according to standard/under condition/by model/in experiment $x_4$; $x_1$ is the $(x_3^{(-1)})$-th-life of population/sample $x_2$; the (approximate) one-$x_3$-th-ing/$(x_3)$-fold decrease(/increase) of population $x_2$ takes approximately $x_1$ (time). 11,11d10 < Word: half-life, In Sense: generalized \n12a12,14 \n> Word: half-life, In Sense: generalized > Word: n-fold change time, In Sense: > Word: nth-life, In Sense: 15,15d16 < Word: nth-life, In Sense: \n17,17d17 < Word: n-fold change time, In Sense: \n [...] Content analysis details: (0.5 points, 5.0 required) pts rule name description ---- ---------------------- -------------------------------------------------- 0.0 URIBL_BLOCKED ADMINISTRATOR NOTICE: The query to URIBL was blocked. See http://wiki.apache.org/spamassassin/DnsBlocklists#dnsbl-block for more information. [URIs: lojban.org] 1.4 RCVD_IN_BRBL_LASTEXT RBL: No description available. [173.13.139.235 listed in bb.barracudacentral.org] -1.9 BAYES_00 BODY: Bayes spam probability is 0 to 1% [score: 0.0000] 1.0 RDNS_DYNAMIC Delivered to internal network by host with dynamic-looking rDNS In jbovlaste, the user krtisfranks has edited a definition of "grixonbybi'otei" in the language "English". Differences: 2,2c2,2 < $x_1 = t_1$ is the elapsed time required for decaying/diminishing/reducing/shrinking population $x_2 = g_1$ to decrease in number by exactly/approximately $1/(x_3)$ from that which is considered to be the initial population size, where $x_3$ [li; default: 1] is a positive real number, according to standard/under condition/by model/in experiment $x_4$; $x_1$ is the $(x_3^{(-1)})$-th-life of population/sample $x_2$; the (approximate) one-$x_3$-th-ing/$(x_3)$-fold decrease(/increase) of population $x_2$ takes approximately $x_1$ (time). --- > $x_1 = t_1$ is the elapsed time required for decaying/diminishing/reducing/shrinking population $x_2 = g_1$ to decrease in number by a factor of exactly/approximately $1/(x_3)$ from that which is considered to be the initial population size, where $x_3$ [li; default: 1] is a positive real number, according to standard/under condition/by model/in experiment $x_4$; $x_1$ is the $(x_3^{(-1)})$-th-life of population/sample $x_2$; the (approximate) one-$x_3$-th-ing/$(x_3)$-fold decrease(/increase) of population $x_2$ takes approximately $x_1$ (time). 11,11d10 < Word: half-life, In Sense: generalized \n12a12,14 \n> Word: half-life, In Sense: generalized > Word: n-fold change time, In Sense: > Word: nth-life, In Sense: 15,15d16 < Word: nth-life, In Sense: \n17,17d17 < Word: n-fold change time, In Sense: \n Old Data: Definition: $x_1 = t_1$ is the elapsed time required for decaying/diminishing/reducing/shrinking population $x_2 = g_1$ to decrease in number by exactly/approximately $1/(x_3)$ from that which is considered to be the initial population size, where $x_3$ [li; default: 1] is a positive real number, according to standard/under condition/by model/in experiment $x_4$; $x_1$ is the $(x_3^{(-1)})$-th-life of population/sample $x_2$; the (approximate) one-$x_3$-th-ing/$(x_3)$-fold decrease(/increase) of population $x_2$ takes approximately $x_1$ (time). Notes: The experimental gismu {xonba} is used in the veljvo of this word. Many of the veljvo terbri of this word can be derived from those which are present. This word may refer to a duration that is statistical (for large samples, the average time required for half of the population to probably disappear/become invalid), ideal (guaranteed rather than statistical), or experimental (in a given trial, some number was recorded on a stopwatch when the count decreased by half). This word is analogous not only to half-life (and means it exactly if $x_3$ is filled by $2$) but also to doubling time (and means it exactly if $x_3$ is filled by $1/2$). See also: {grixabybi'otei}, {gritezdybi'otei}. Jargon: Gloss Keywords: Word: half-life, In Sense: generalized Word: doubling time, In Sense: Word: one-nth-life, In Sense: Word: one-third-life, In Sense: generalized Word: nth-life, In Sense: Word: tripling time, In Sense: generalized Word: n-fold change time, In Sense: Place Keywords: New Data: Definition: $x_1 = t_1$ is the elapsed time required for decaying/diminishing/reducing/shrinking population $x_2 = g_1$ to decrease in number by a factor of exactly/approximately $1/(x_3)$ from that which is considered to be the initial population size, where $x_3$ [li; default: 1] is a positive real number, according to standard/under condition/by model/in experiment $x_4$; $x_1$ is the $(x_3^{(-1)})$-th-life of population/sample $x_2$; the (approximate) one-$x_3$-th-ing/$(x_3)$-fold decrease(/increase) of population $x_2$ takes approximately $x_1$ (time). Notes: The experimental gismu {xonba} is used in the veljvo of this word. Many of the veljvo terbri of this word can be derived from those which are present. This word may refer to a duration that is statistical (for large samples, the average time required for half of the population to probably disappear/become invalid), ideal (guaranteed rather than statistical), or experimental (in a given trial, some number was recorded on a stopwatch when the count decreased by half). This word is analogous not only to half-life (and means it exactly if $x_3$ is filled by $2$) but also to doubling time (and means it exactly if $x_3$ is filled by $1/2$). See also: {grixabybi'otei}, {gritezdybi'otei}. Jargon: Gloss Keywords: Word: doubling time, In Sense: Word: half-life, In Sense: generalized Word: n-fold change time, In Sense: Word: nth-life, In Sense: Word: one-nth-life, In Sense: Word: one-third-life, In Sense: generalized Word: tripling time, In Sense: generalized Place Keywords: You can go to to see it.