Received: from 173-13-139-235-sfba.hfc.comcastbusiness.net ([173.13.139.235]:38492 helo=jukni.digitalkingdom.org) by stodi.digitalkingdom.org with smtp (Exim 4.86_2) (envelope-from ) id 1c0lhg-0005GW-UM for jbovlaste-admin@lojban.org; Sun, 30 Oct 2016 01:43:02 -0700 Received: by jukni.digitalkingdom.org (sSMTP sendmail emulation); Sun, 30 Oct 2016 01:42:56 -0700 From: "Apache" To: curtis289@att.net Reply-To: webmaster@lojban.org Subject: [jvsw] Definition Edited At Word carnamajga -- By krtisfranks Date: Sun, 30 Oct 2016 01:42:56 -0700 MIME-Version: 1.0 Content-Type: text/plain; charset="UTF-8" Message-Id: X-Spam-Score: -0.9 (/) X-Spam_score: -0.9 X-Spam_score_int: -8 X-Spam_bar: / In jbovlaste, the user krtisfranks has edited a definition of "carnamajga" in the language "English". Differences: 5,5c5,5 < --- > Physics is all about expressing the same thing in different ways in order to gain new insight about it. There are other ways to express a mathematical quantity which is equivalent to this one (much as gravitational charge and inertial mass are mathematically mutually equal but not conceptually identical). 11,11d10 < Word: moment of inertia, In Sense: \n12a12,12 \n> Word: moment of inertia, In Sense: Old Data: Definition: $x_1$ (li; tensor with units of $kg*m^2$) is the moment of inertia/angular inertial-mass/rotational inertia of object $x_2$ around axis/point of reference $x_3$ in basis/coordinate system $x_4$. Notes: Jargon: Gloss Keywords: Word: moment of inertia, In Sense: Word: angular mass (inertial), In Sense: Word: rotational inertia, In Sense: Place Keywords: New Data: Definition: $x_1$ (li; tensor with units of $kg*m^2$) is the moment of inertia/angular inertial-mass/rotational inertia of object $x_2$ around axis/point of reference $x_3$ in basis/coordinate system $x_4$. Notes: Physics is all about expressing the same thing in different ways in order to gain new insight about it. There are other ways to express a mathematical quantity which is equivalent to this one (much as gravitational charge and inertial mass are mathematically mutually equal but not conceptually identical). Jargon: Gloss Keywords: Word: angular mass (inertial), In Sense: Word: moment of inertia, In Sense: Word: rotational inertia, In Sense: Place Keywords: You can go to to see it.