{"id":43,"date":"2013-07-27T14:30:14","date_gmt":"2013-07-27T21:30:14","guid":{"rendered":"http:\/\/blogs.sd41.bc.ca\/south-science\/?page_id=43"},"modified":"2013-08-22T21:02:42","modified_gmt":"2013-08-23T04:02:42","slug":"chemistry-12","status":"publish","type":"page","link":"https:\/\/blogs.sd41.bc.ca\/south-science\/chemistry\/chemistry-12\/","title":{"rendered":"Chemistry 12"},"content":{"rendered":"<p><strong>Chemistry 12<\/strong><\/p>\n<p><strong>Course Number &#8211; 5320<\/strong><\/p>\n<p><strong>Prerequisite<\/strong>\u00a0&#8211; Chemistry 11 or Chemistry 11 Honours.<\/p>\n<p><strong>Text<\/strong>\u00a0&#8211;<\/p>\n<p><strong>Course Description<\/strong><\/p>\n<p>Chemistry deals with what things are made of, and how they behave or interact with other things around them. Thus chemistry deals with the composition, structure, and properties of matter as well as the changes or transformations that take place in matter. This course deals with chemical change and the energy associated with these changes throughout the following topics:<\/p>\n<ul>\n<li>Reaction Kinetics<\/li>\n<li>Dynamic Equilibrium<\/li>\n<li>Solubility Equilibria<\/li>\n<li>Nature of Acids and Bases<\/li>\n<li>Acids and Bases: Quantitative Problem Solving<\/li>\n<li>Applications of Acid-Base Reactions<\/li>\n<li>Oxidation-Reduction<\/li>\n<li>Applications of Redox Reactions<\/li>\n<\/ul>\n<p><b><span style=\"text-decoration: underline;\">Evaluation Guidelines:<\/span><\/b><br \/>\nMarks for the course are obtained on class assignments, labs, short tests, homework, and cumulative tests. On occasion, major projects may be assigned to the students.<\/p>\n<p><strong>Prescribed Learning Outcomes<\/strong><\/p>\n<p>(taken from <a href=\"http:\/\/www.bced.gov.bc.ca\/irp\/pdfs\/sciences\/2006biology1112.pdf\">http:\/\/www.bced.gov.bc.ca\/irp\/pdfs\/sciences\/2006chem1112.pdf<\/a>)<\/p>\n<p>Reaction Kinetics<\/p>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 203.627px; transform: scale(1.11182, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"357.84001706314086\">A1 demonstrate awareness that reactions occur at differing rates<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 219.627px; transform: scale(1.10716, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"254.24001212310787\">A2 experimentally determine rate of a reaction<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 235.627px; transform: scale(1.10964, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"252.72001205062867\">A3 demonstrate knowledge of collision theory<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 251.627px; transform: scale(1.10864, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"390.42668528366096\">A4 describe the energies associated with reactants becoming products<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 267.626px; transform: scale(1.10471, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"396.18668555831914\">A5 apply collision theory to explain how reaction rates can be changed<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 283.626px; transform: scale(1.10188, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"313.37334827613824\">A6 analyse the reaction mechanism for a reacting system<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 299.626px; transform: scale(1.11276, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"552.7066930217743\">A7 represent graphically the energy changes associated with catalyzed and uncatalyzed reactions<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 315.626px; transform: scale(1.09647, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"361.7066839141847\">A8 describe the uses of specific catalysts in a variety of situations<\/div>\n<p>Dynamic Equilibrium<\/p>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 368.33px; transform: scale(1.09842, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"461.4266886692048\">B1 explain the concept of chemical equilibrium with reference to reacting systems<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 384.33px; transform: scale(1.10965, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"571.4133605804443\">B2 predict, with reference to entropy and enthalpy, whether reacting systems will reach equilibrium<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 400.33px; transform: scale(1.10361, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"352.7333501529694\">B3 apply Le Ch\u00e2telier\u2019s principle to the shifting of equilibrium<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 416.33px; transform: scale(1.10585, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"413.82668639945985\">B4 apply the concept of equilibrium to a commercial or industrial process<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 432.33px; transform: scale(1.11023, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"349.7600166778565\">B5 draw conclusions from the equilibrium constant expression<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 480.822px; top: 448.33px; transform: scale(1.10439, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"215.6133436145783\">B6 perform calculations to evaluate the changes in the value of Keq and in concentrations of substances<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 464.33px; transform: scale(1.11925, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"174.2666749763489\">within an equilibrium system<\/div>\n<p>Solubility Equilibria<\/p>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 517.034px; transform: scale(1.11537, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"353.01335016632095\">C1 determine the solubility of a compound in aqueous solution<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 533.034px; transform: scale(1.11534, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"320.49334861564637\">C2 describe a saturated solution as an equilibrium system<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 549.034px; transform: scale(1.10762, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"285.45334694480897\">C3 determine the concentration of ions in a solution<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 565.034px; transform: scale(1.10263, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"410.98668626403816\">C4 determine the relative solubility of a substance, given solubility tables<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 581.034px; transform: scale(1.10679, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"358.5066837615968\">C5 apply solubility rules to analyse the composition of solutions<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 597.034px; transform: scale(1.11571, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"440.1866876564026\">C6 formulate equilibrium constant expressions for various saturated solutions<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 613.034px; transform: scale(1.10666, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"368.6666842460633\">C7 perform calculations involving solubility equilibrium concepts<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 629.034px; transform: scale(1.10497, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"393.8666854476929\">C8 devise a method for determining the concentration of a specific ion<\/div>\n<p>Nature of Acids and Bases<\/p>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 681.738px; transform: scale(1.11757, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"292.13334726333625\">D1 identify acids and bases through experimentation<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 697.738px; transform: scale(1.11197, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"332.62668252754213\">D2 identify various models for representing acids and bases<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 713.738px; transform: scale(1.10849, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"478.33335614204407\">D3 analyse balanced equations representing the reaction of acids or bases with water<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 729.738px; transform: scale(1.09745, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"602.2266953830721\">D4 classify an acid or base in solution as either weak or strong, with reference to its electrical conductivity<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 745.738px; transform: scale(1.10387, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"391.5066853351593\">D5 analyse the equilibria that exist in weak acid or weak base systems<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 109.472px; top: 761.738px; transform: scale(1.10432, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"270.7600129108429\">D6 identify chemical species that are amphiprotic<\/div>\n<div dir=\"ltr\" style=\"font-size: 12px; font-family: serif; left: 78px; top: 998.117px;\" data-font-name=\"g_font_p1_1\" data-canvas-width=\"6.000000000000002\">\u0018<\/div>\n<p>Acids and Bases:\u00a0 Quantitative Problem Solving<\/p>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 180.293px; transform: scale(1.11194, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"254.133345451355\">E1 analyse the equilibrium that exists in water<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 469.401px; top: 196.293px; transform: scale(1.0015, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"4.440000211715699\">E2 perform calculations relating pH, pOH, [H3O+], and [OH-]<\/div>\n<div dir=\"ltr\" style=\"font-size: 7.77333px; font-family: serif; left: 371.194px; top: 238.293px; transform: scale(1.10695, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"4.29865345287323\">E3 explain the significance of the Ka and Kb equilibrium expressions<\/div>\n<div dir=\"ltr\" style=\"font-size: 7.77333px; font-family: serif; left: 371.194px; top: 238.293px; transform: scale(1.10695, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"4.29865345287323\">E4 perform calculations involving Ka and Kb<\/div>\n<div dir=\"ltr\" style=\"font-size: 7.77333px; font-family: serif; left: 371.194px; top: 238.293px; transform: scale(1.10695, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"4.29865345287323\"><\/div>\n<div dir=\"ltr\" style=\"font-size: 7.77333px; font-family: serif; left: 371.194px; top: 238.293px; transform: scale(1.10695, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"4.29865345287323\">Applications of Acid-Base Reactions<\/div>\n<div dir=\"ltr\" style=\"font-size: 7.77333px; font-family: serif; left: 371.194px; top: 238.293px; transform: scale(1.10695, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"4.29865345287323\"><\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 280.997px; transform: scale(1.11108, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"599.3733619136807\">F1 demonstrate an ability to design, perform, and analyse a titration experiment involving the following:<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 151.205px; top: 296.997px; transform: scale(1.14528, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"109.68000522994994\">\u2013primary standards<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 151.205px; top: 312.997px; transform: scale(1.13411, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"134.6000064182282\">\u2013standardized solutions<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 151.205px; top: 328.997px; transform: scale(1.12057, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"89.90667095375062\">\u2013titration curves<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 151.205px; top: 344.997px; transform: scale(1.12726, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"135.02667310523987\">\u2013appropriate indicators<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 360.997px; transform: scale(1.11089, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"274.42667975234986\">F2 describe an indicator as an equilibrium system<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 559.526px; top: 376.997px; transform: scale(1.10726, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"94.56000450897217\">F3 perform and interpret calculations involving the pH in a solution and Ka for an indicator<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 392.997px; transform: scale(1.10256, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"275.2000131225586\">F4 describe the hydrolysis of ions in salt solutions<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 408.997px; transform: scale(1.10422, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"282.1466801204682\">F5 analyse the extent of hydrolysis in salt solutions<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 424.997px; transform: scale(1.10546, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"232.77334443283084\">F6 describe buffers as equilibrium systems<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 440.997px; transform: scale(1.10883, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"247.78667848205572\">F7 describe the preparation of buffer systems<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 456.997px; transform: scale(1.11815, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"357.64001705360414\">F8 predict what will happen when oxides dissolve in rain water<\/div>\n<p>Oxidation-Reduction<\/p>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 509.701px; transform: scale(1.1108, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"253.8000121021271\">G1 describe oxidation and reduction processes<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 525.701px; transform: scale(1.11115, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"368.9200175914765\">G2 analyse the relative strengths of reducing and oxidizing agents<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 541.701px; transform: scale(1.10153, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"219.0933437805176\">G3 balance equations for redox reactions<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 557.701px; transform: scale(1.10753, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"423.4266868572235\">G4 determine the concentration of a species by performing a redox titration<\/div>\n<p>Applications of Redox Reactions<\/p>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 610.405px; transform: scale(1.09984, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"455.1333550357819\">H1 analyse an electrochemical cell in terms of its components and their functions<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 626.405px; transform: scale(1.10148, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"492.01335679435726\">H2 describe how electrochemical concepts can be used in various practical applications<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 642.405px; transform: scale(1.09498, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"370.1200176486969\">H3 analyse the process of metal corrosion in electrochemical terms<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 658.405px; transform: scale(1.10012, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"428.3866870937348\">H4 analyse an electrolytic cell in terms of its components and their functions<\/div>\n<div dir=\"ltr\" style=\"font-size: 13.3333px; font-family: serif; left: 133.472px; top: 674.405px; transform: scale(1.10183, 1); transform-origin: 0% 0% 0px;\" data-font-name=\"g_font_p0_3\" data-canvas-width=\"465.26668885231015\">H5 describe how electrolytic concepts can be used in various practical applications<\/div>\n<p>&nbsp;<\/p>\n","protected":false},"excerpt":{"rendered":"<p>Chemistry 12 Course Number &#8211; 5320 Prerequisite\u00a0&#8211; Chemistry 11 or Chemistry 11 Honours. Text\u00a0&#8211; Course Description Chemistry deals with what things are made of, and how they behave or interact with other things around them. Thus chemistry deals with the &hellip; <a href=\"https:\/\/blogs.sd41.bc.ca\/south-science\/chemistry\/chemistry-12\/\">Continue reading <span class=\"meta-nav\">&rarr;<\/span><\/a><\/p>\n","protected":false},"author":129,"featured_media":0,"parent":40,"menu_order":3,"comment_status":"closed","ping_status":"closed","template":"","meta":[],"_links":{"self":[{"href":"https:\/\/blogs.sd41.bc.ca\/south-science\/wp-json\/wp\/v2\/pages\/43"}],"collection":[{"href":"https:\/\/blogs.sd41.bc.ca\/south-science\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/blogs.sd41.bc.ca\/south-science\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/blogs.sd41.bc.ca\/south-science\/wp-json\/wp\/v2\/users\/129"}],"replies":[{"embeddable":true,"href":"https:\/\/blogs.sd41.bc.ca\/south-science\/wp-json\/wp\/v2\/comments?post=43"}],"version-history":[{"count":9,"href":"https:\/\/blogs.sd41.bc.ca\/south-science\/wp-json\/wp\/v2\/pages\/43\/revisions"}],"predecessor-version":[{"id":153,"href":"https:\/\/blogs.sd41.bc.ca\/south-science\/wp-json\/wp\/v2\/pages\/43\/revisions\/153"}],"up":[{"embeddable":true,"href":"https:\/\/blogs.sd41.bc.ca\/south-science\/wp-json\/wp\/v2\/pages\/40"}],"wp:attachment":[{"href":"https:\/\/blogs.sd41.bc.ca\/south-science\/wp-json\/wp\/v2\/media?parent=43"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}