{"id":937,"date":"2021-07-23T09:21:06","date_gmt":"2021-07-23T13:21:06","guid":{"rendered":"https:\/\/pressbooks.bccampus.ca\/aperrott\/back-matter\/ionization-constants-of-weak-acids\/"},"modified":"2022-06-23T09:37:23","modified_gmt":"2022-06-23T13:37:23","slug":"ionization-constants-of-weak-acids","status":"publish","type":"back-matter","link":"https:\/\/pressbooks.bccampus.ca\/aperrott\/back-matter\/ionization-constants-of-weak-acids\/","title":{"raw":"Appendix H: Ionization Constants of Weak Acids","rendered":"Appendix H: Ionization Constants of Weak Acids"},"content":{"raw":"<table id=\"fs-idp188411712\" class=\"top-titled\" summary=\"This table has four columns and twenty-two rows. The columns are labeled, \u201cAcid,\u201d \u201cFormula,\u201d \u201cK subscript a at twenty-five degrees Celsius,\u201d and \u201cLewis Structure.\u201d The first acid listed is acetic and its formula is C H subscript 3 C O subscript 2 H. The last H in the formula is red. The K subscript a at twenty-five degrees Celsius is 1.8 times ten superscript negative five. The Lewis structure is also shown. It has two C atoms. The first C atom forms single bonds to three hydrogen atoms at 90 degree angles. The first C atom also forms a single bond with the second C atom. The second C atom forms a double bond with an O atom, which has four valence electrons, and forms a single bond with another O atom with four valence electrons. The second O atom also forms a single bond with an H atom. All H atoms are colored red. The second acid is arsenic. There are three formulas listed for arsenic. The first is H subscript 3 A s O subscript 4. The H subscript 3 is red. For this formula the K subscript a at twenty-five degrees Celsius is 5.5 times ten superscript negative three. The second formula is H subscript 2 A s O subscript 4 superscript negative sign. The H subscript 2 is red. For this formula the K subscript a at twenty-five degrees Celsius is 1.7 times ten superscript negative seven. The third formula is H A s O subscript 4 superscript 2 negative sign. The H is red. For this formula, the K subscript a at twenty-five is 5.1 times ten superscript negative 12. The Lewis structure is given and is the same for both formulas. There is an A s atom in the center which forms three single bonds to three O H groups where each O atom has four valence electron. A s also forms a double bond with an O atom which has four valence electrons. All H atoms are colored red. The next acid is arsenous. The formula is H subscript 3 A s O subscript 3. The H subscript 3 is red. The K subscript a at twenty-five degrees Celsius is 5.1 times ten superscript negative ten. The Lewis Structure for arsenous is also given. It has an A s atom with two valence electrons at the center. The A s atom forms a single bond with an O atom with four valence electrons, and the O atom forms a single bond with an H atom. The A s atom also forms another single bond with an O atom with four valence electrons, which also forms a single bond with an H atom. The A s atom also forms a third single bond with another O atom with four valence electrons which forms a single bond with an H atom. All H atoms are colored red. The next acid is boric. The formula is H subscript 3 B O 3. H subscript 3 is red. The K subscript a at twenty-five degrees Celsius is 5.4 times ten superscript negative ten. The Lewis structure is also given. There is a B atom which forms three separate single bonds with three different O atoms. Each O atom forms a single bond with an H atom. All H atoms are red. The next acid is carbonic acid. There are two formulas given for carbonic acid. The first is H subscript 2 C O subscript 3. The H subscript 2 is red. The K subscript a at twenty-five degrees Celsius is 4.3 times ten superscript negative seven. The second formula is H C O subscript 3 superscript negative sign. The H is red. The K subscript a at twenty-five degrees Celsius is 5.6 times ten superscript negative 11. The Lewis structure is also given and is the same for both formulas. It has a C atom which forms a double bond with an O atom with four valence electrons. The C atom also forms a single bond with an O H group, where the O atom has two valence electrons. The C atom also forms another single bond with another O H group, where the O atom has two valence electrons. All of the H atoms are colored red. The next acid is cyanic. The formula is H C N O, and the H is red. The K subscript a at twenty-five degrees Celsius is 2 time ten superscript negative four. The Lewis structure is also given. A C atom forms a double bond with an O atom with four valence electrons. It also forms a double bond with an N atom which has two valence electrons. The N atom also forms a single bond with an H atom. The H atom is colored red. The next acid is formic. The formula is H C O subscript 2 H. The second H is colored red. The K subscript a at twenty-five degrees Celsius is 1.8 time ten superscript negative four. The Lewis structure is also given. A C H group forms a single bond with an O H group where the O has four valence electrons. The C H group also forms a single bond with an O atom with four valence electrons. The next acid is hydrazoic. The formula is H N subscript 3. The H is red. The K subscript a at twenty-five degrees Celsius is 2.5 time ten superscript negative 5. The Lewis structure is also given. There is an N atom with two valence electrons that forms a single bond with an H atom. The N atom also forms a single bond with another N atom, and that N atom forms a triple bond with another N atom with two valence electrons. This yields an N atom with two valence electrons which forms a single bond with an H atom. The N atom also forms a double bond with another N atom, which forms a double bond with another N atom with four valence electrons. All H atoms are red. The next acid is hydrocyanic. The formula is H C N. The H is colored red. The K subscript a at twenty-five degrees Celsius is 4.9 time ten superscript negative ten. There is no Lewis structure given. The next acid is hydrofluoric. The formula is H F. The H is colored red. The K subscript a at twenty-five degrees Celsius is 3.5 time ten superscript negative 4. There is no Lewis structure given. The next acid is hydrogen peroxide. The formula is H subscript 2 O subscript 2. The H subscript 2 is red The K subscript a at twenty-five degrees Celsius is 2.4 time ten superscript negative 12. The Lewis structure is given. There is an H atom which forms a single bond with an O atom with four valence electrons which forms a single bond with another O atom with four valence electrons which forms a single bond with another H atom. The H atoms are red. The next acid is hydrogen selenide. There are two formulas given. The first is H subscript 2 S e. The H subscript 2 is red. The K subscript a at twenty-five degrees Celsius is 1.29 time ten superscript negative four. The second formula is H S e superscript negative sign. The H is red. the K subscript a at twenty-five degrees Celsius is one times ten superscript negative twelve. There is no Lewis structure given for hydrogen selenide. The next acid is hydrogen sulfate ion. The formula is H S O subscript 4 superscript negative sign. The H is red. The K subscript a at twenty-five degrees Celsius is 1.2 times ten superscript negative 2. The Lewis structure is given. An S atom forms a double bond with an O atom with four valence electrons. It also forms a second double bond with another O atom with four valence electrons. The S atom also forms a single bond with an O atom with six valence electrons, and it forms a single bond with an O atom which forms a single bond with an H atom. The H atom is red. The next acid is hydrogen sulfide. There are two formulas given. The first is H subscript 2 S. The H subscript 2 is red. The K subscript a at twenty-five degrees Celsius is 8.9 times ten superscript negative eight. The second formula is H S superscript negative sign. The K subscript a at twenty-five degrees Celsius is 1.0 times ten superscript negative 19. There is no Lewis structure given. The next acid is hydrogen telluride. There are two formulas given. The first is H subscript 2 T e. The H subscript 2 is red. The K subscript a at twenty-five degrees Celsius is 2.3 times ten superscript negative 3. The second formula is H T e superscript negative sign. The H is red. The K subscript a at twenty-five degrees Celsius is 1.6 times ten superscript negative eleven. There is no Lewis structure given. The next acid is hypobromous. The formula is H B r O. The H is red. The K subscript a at twenty-five degrees Celsius is 1.6 times ten superscript negative nine. There is no Lewis structure given. The next acid is hypochlorous. The formula is H C l O. The H is red. The K subscript a at twenty-five degrees Celsius is 2.9 times ten superscript negative 8. There is no Lewis structure given. The next acid is nitrous. The formula is H N O subscript 2. The H is red. The K subscript a at twenty-five degrees Celsius is 4.6 times ten superscript negative four. The Lewis structure is given. An N atom with two valence electrons forms a single bond with an O atom with four valence electrons. The N atom also forms a single bond with an O H group where the O has four valence electrons. The H atom is red. The next acid is oxalic. There are two formulas given. The first is H subscript 2 C subscript 2 O subscript 4. The H subscript 2 is red. The K subscript a at twenty-five degrees Celsius is 6.0 times ten superscript negative two. The second formula is H C subscript 2 O subscript 4 superscript negative sign. The H is red. The K subscript a at twenty-five degrees Celsius is 6.1 times ten superscript negative five. The Lewis structure is given and is the same for both formulas. An H atom forms a single bond with an O atom which has four valence electrons. the O atom forms a single bond with a C atom. The C atom forms a single bond with another O atom with four valence electrons. The C atom also forms a single with another C atom. The second C atom forms a single bond with an O atom with four valence electrons. The C atom also forms a second single bond with an O atom with four valence electrons. The O atom forms a single bond with an H atom. The H atoms are red. The next acid is phosphoric. There are three formulas given. The first is H subscript 3 P O subscript 4. The H subscript 3 is red. The K subscript a at twenty-five degrees Celsius is 7.5 times ten superscript negative 3. The second formula is H subscript 2 P O subscript 4 superscript negative sign. The H subscript 2 is red. The K subscript a at twenty-five degrees Celsius is 6.2 time ten superscript negative eight. The third formula given is H P O subscript 4 superscript two negative. The K subscript a at twenty-five degrees Celsius is 4.2 times ten superscript negative 13. The H is red. The Lewis structure is given and is the same for all three formulas. A P atom forms a single bond with an O atom with four valence electrons. The O atom forms a single bond with an H atom. The P atom also forms a double bond with an O atom with four valence electrons. The P atom forms a single bond with an O atom with four valence electrons. The O atom forms a single bond with an H atom. The P atom also forms another single bond with another O atom with four valence electrons. The O atom also forms a single bond with an H atom. The H atoms are red. The next acid is phosphorous. There are two formulas given. The first is H subscript 3 P O subscript 3. The H subscript 3 is red. The K subscript a at twenty-five degrees Celsius is five time ten superscript negative two. The second formula is H subscript 2 P O subscript 3 superscript negative sign. The H subscript 2 is red. The K subscript a at twenty-five degrees Celsius is 2.0 times ten superscript negative 7. The Lewis structure is given and is the same for both formulas. A P atom with two valence electrons forms three separate single bonds with three O H groups. The O atoms in all three O H groups each have four valence electrons. The H atoms are red. The last acid in the table is sulfurous. There are two formulas given. The first is H subscript 2 S O subscript 3. The H subscript 2 is red. The K subscript a at twenty-five degrees Celsius is 1.6 times ten superscript negative two. The second formula is H S O subscript 3 superscript negative sign. The H is red. The K subscript a at twenty-five degrees Celsius is 6.4 times ten superscript negative 8. The Lewis structure is given and is the same for both formulas. The S atom has two valence electrons and forms a single bond with an O atom with four valence electrons. The S atom also forms a single bond with an O H group. The O atom has four valence electrons. The S atom also forms another single bond with another O H group. The O atom has four valence electrons.\">\r\n<thead>\r\n<tr valign=\"middle\">\r\n<th colspan=\"4\" data-valign=\"middle\">Ionization Constants of Weak Acids<\/th>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<th data-valign=\"middle\" data-align=\"left\">Acid<\/th>\r\n<th data-valign=\"middle\" data-align=\"left\">Formula<\/th>\r\n<th data-valign=\"middle\" data-align=\"left\"><em data-effect=\"italics\">K<sub>a<\/sub><\/em> at 25 \u00b0C<\/th>\r\n<th data-valign=\"middle\" data-align=\"left\">Lewis Structure<\/th>\r\n<\/tr>\r\n<\/thead>\r\n<tbody>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\">acetic<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">CH<sub>3<\/sub>CO<sub>2<\/sub><strong class=\"emphasis-one\">H<\/strong><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">1.8 [latex]\u00d7[\/latex] 10<sup>\u22125<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp39359664\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1sacetic_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td rowspan=\"3\" data-valign=\"middle\" data-align=\"left\">arsenic<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>3<\/sub><\/strong>AsO<sub>4<\/sub><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">5.5 [latex]\u00d7[\/latex] 10<sup>\u22123<\/sup><\/td>\r\n<td rowspan=\"3\" data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp70710144\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1sarsenic_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idm48016224\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform1_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">1.7 [latex]\u00d7[\/latex] 10<sup>\u22127<\/sup><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp4864560\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform2_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">3.0 [latex]\u00d7[\/latex] 10<sup>\u221212<\/sup><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\">arsenous<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>3<\/sub><\/strong>AsO<sub>3<\/sub><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">5.1 [latex]\u00d7[\/latex] 10<sup>\u221210<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp239313744\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1sarsenous_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\">boric<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>3<\/sub><\/strong>BO<sub>3<\/sub><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">5.4 [latex]\u00d7[\/latex] 10<sup>\u221210<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp263282816\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1sboric_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\">carbonic<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>2<\/sub><\/strong>CO<sub>3<\/sub><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">4.3 [latex]\u00d7[\/latex] 10<sup>\u22127<\/sup><\/td>\r\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp248805232\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1scarbonic_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp18339488\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform3_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">4.7 [latex]\u00d7[\/latex] 10<sup>\u221211<\/sup><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\">cyanic<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>CNO<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">2 [latex]\u00d7[\/latex] 10<sup>\u22124<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp104543264\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1scyanic_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\">formic<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">HCO<sub>2<\/sub><strong class=\"emphasis-one\">H<\/strong><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">1.8 [latex]\u00d7[\/latex] 10<sup>\u22124<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp228303184\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1sformic_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\">hydrazoic<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>N<sub>3<\/sub><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">2.5 [latex]\u00d7[\/latex] 10<sup>\u22125<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp263356416\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1shydrazoi_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\">hydrocyanic<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>CN<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">4.9 [latex]\u00d7[\/latex] 10<sup>\u221210<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\">hydrofluoric<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>F<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">6.4 [latex]\u00d7[\/latex] 10<sup>\u22124<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\">hydrogen peroxide<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>2<\/sub><\/strong>O<sub>2<\/sub><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">2.4 [latex]\u00d7[\/latex] 10<sup>\u221212<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp97395280\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1shydroper_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\">hydrogen selenide<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>2<\/sub><\/strong>Se<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">1.29 [latex]\u00d7[\/latex] 10<sup>\u22124<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>Se<sup>\u2013<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">1 [latex]\u00d7[\/latex] 10<sup>\u221212<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\">hydrogen sulfate ion<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp99032000\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform4_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">1.2 [latex]\u00d7[\/latex] 10<sup>\u22122<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp101833664\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1shydrosul_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\">hydrogen sulfide<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>2<\/sub><\/strong>S<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">8.9 [latex]\u00d7[\/latex] 10<sup>\u22128<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>S<sup>\u2013<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">1.0 [latex]\u00d7[\/latex] 10<sup>\u221219<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\">hydrogen telluride<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>2<\/sub><\/strong>Te<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">2.3 [latex]\u00d7[\/latex] 10<sup>\u22123<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>Te<sup>\u2013<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">1.6 [latex]\u00d7[\/latex] 10<sup>\u221211<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\">hypobromous<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>BrO<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">2.8 [latex]\u00d7[\/latex] 10<sup>\u22129<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\">hypochlorous<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>ClO<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">2.9 [latex]\u00d7[\/latex] 10<sup>\u22128<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\">nitrous<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>NO<sub>2<\/sub><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">4.6 [latex]\u00d7[\/latex] 10<sup>\u22124<\/sup><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp17547328\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1snitrous_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\">oxalic<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>2<\/sub><\/strong>C<sub>2<\/sub>O<sub>4<\/sub><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">6.0 [latex]\u00d7[\/latex] 10<sup>\u22122<\/sup><\/td>\r\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp130935984\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1soxalic_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp216752880\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform5_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">6.1 [latex]\u00d7[\/latex] 10<sup>\u22125<\/sup><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td rowspan=\"3\" data-valign=\"middle\" data-align=\"left\">phosphoric<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>3<\/sub><\/strong>PO<sub>4<\/sub><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">7.5 [latex]\u00d7[\/latex] 10<sup>\u22123<\/sup><\/td>\r\n<td rowspan=\"3\" data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp124453136\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1sphosphor_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp144257472\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform6_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">6.2 [latex]\u00d7[\/latex] 10<sup>\u22128<\/sup><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp268867536\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform7_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">4.2 [latex]\u00d7[\/latex] 10<sup>\u221213<\/sup><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\">phosphorous<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>3<\/sub><\/strong>PO<sub>3<\/sub><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">5 [latex]\u00d7[\/latex] 10<sup>\u22122<\/sup><\/td>\r\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp15659296\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1sphospho2_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idm34225056\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform8_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">2.0 [latex]\u00d7[\/latex] 10<sup>\u22127<\/sup><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\">sulfurous<\/td>\r\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>2<\/sub><\/strong>SO<sub>3<\/sub><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">1.6 [latex]\u00d7[\/latex] 10<sup>\u22122<\/sup><\/td>\r\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp138875280\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1ssulfurou_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<\/tr>\r\n<tr valign=\"middle\">\r\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp99066272\" data-type=\"media\" data-alt=\"\"><img src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform9_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\r\n<td data-valign=\"middle\" data-align=\"left\">6.4 [latex]\u00d7[\/latex] 10<sup>\u22128<\/sup><\/td>\r\n<\/tr>\r\n<\/tbody>\r\n<\/table>","rendered":"<table id=\"fs-idp188411712\" class=\"top-titled\" summary=\"This table has four columns and twenty-two rows. The columns are labeled, \u201cAcid,\u201d \u201cFormula,\u201d \u201cK subscript a at twenty-five degrees Celsius,\u201d and \u201cLewis Structure.\u201d The first acid listed is acetic and its formula is C H subscript 3 C O subscript 2 H. The last H in the formula is red. The K subscript a at twenty-five degrees Celsius is 1.8 times ten superscript negative five. The Lewis structure is also shown. It has two C atoms. The first C atom forms single bonds to three hydrogen atoms at 90 degree angles. The first C atom also forms a single bond with the second C atom. The second C atom forms a double bond with an O atom, which has four valence electrons, and forms a single bond with another O atom with four valence electrons. The second O atom also forms a single bond with an H atom. All H atoms are colored red. The second acid is arsenic. There are three formulas listed for arsenic. The first is H subscript 3 A s O subscript 4. The H subscript 3 is red. For this formula the K subscript a at twenty-five degrees Celsius is 5.5 times ten superscript negative three. The second formula is H subscript 2 A s O subscript 4 superscript negative sign. The H subscript 2 is red. For this formula the K subscript a at twenty-five degrees Celsius is 1.7 times ten superscript negative seven. The third formula is H A s O subscript 4 superscript 2 negative sign. The H is red. For this formula, the K subscript a at twenty-five is 5.1 times ten superscript negative 12. The Lewis structure is given and is the same for both formulas. There is an A s atom in the center which forms three single bonds to three O H groups where each O atom has four valence electron. A s also forms a double bond with an O atom which has four valence electrons. All H atoms are colored red. The next acid is arsenous. The formula is H subscript 3 A s O subscript 3. The H subscript 3 is red. The K subscript a at twenty-five degrees Celsius is 5.1 times ten superscript negative ten. The Lewis Structure for arsenous is also given. It has an A s atom with two valence electrons at the center. The A s atom forms a single bond with an O atom with four valence electrons, and the O atom forms a single bond with an H atom. The A s atom also forms another single bond with an O atom with four valence electrons, which also forms a single bond with an H atom. The A s atom also forms a third single bond with another O atom with four valence electrons which forms a single bond with an H atom. All H atoms are colored red. The next acid is boric. The formula is H subscript 3 B O 3. H subscript 3 is red. The K subscript a at twenty-five degrees Celsius is 5.4 times ten superscript negative ten. The Lewis structure is also given. There is a B atom which forms three separate single bonds with three different O atoms. Each O atom forms a single bond with an H atom. All H atoms are red. The next acid is carbonic acid. There are two formulas given for carbonic acid. The first is H subscript 2 C O subscript 3. The H subscript 2 is red. The K subscript a at twenty-five degrees Celsius is 4.3 times ten superscript negative seven. The second formula is H C O subscript 3 superscript negative sign. The H is red. The K subscript a at twenty-five degrees Celsius is 5.6 times ten superscript negative 11. The Lewis structure is also given and is the same for both formulas. It has a C atom which forms a double bond with an O atom with four valence electrons. The C atom also forms a single bond with an O H group, where the O atom has two valence electrons. The C atom also forms another single bond with another O H group, where the O atom has two valence electrons. All of the H atoms are colored red. The next acid is cyanic. The formula is H C N O, and the H is red. The K subscript a at twenty-five degrees Celsius is 2 time ten superscript negative four. The Lewis structure is also given. A C atom forms a double bond with an O atom with four valence electrons. It also forms a double bond with an N atom which has two valence electrons. The N atom also forms a single bond with an H atom. The H atom is colored red. The next acid is formic. The formula is H C O subscript 2 H. The second H is colored red. The K subscript a at twenty-five degrees Celsius is 1.8 time ten superscript negative four. The Lewis structure is also given. A C H group forms a single bond with an O H group where the O has four valence electrons. The C H group also forms a single bond with an O atom with four valence electrons. The next acid is hydrazoic. The formula is H N subscript 3. The H is red. The K subscript a at twenty-five degrees Celsius is 2.5 time ten superscript negative 5. The Lewis structure is also given. There is an N atom with two valence electrons that forms a single bond with an H atom. The N atom also forms a single bond with another N atom, and that N atom forms a triple bond with another N atom with two valence electrons. This yields an N atom with two valence electrons which forms a single bond with an H atom. The N atom also forms a double bond with another N atom, which forms a double bond with another N atom with four valence electrons. All H atoms are red. The next acid is hydrocyanic. The formula is H C N. The H is colored red. The K subscript a at twenty-five degrees Celsius is 4.9 time ten superscript negative ten. There is no Lewis structure given. The next acid is hydrofluoric. The formula is H F. The H is colored red. The K subscript a at twenty-five degrees Celsius is 3.5 time ten superscript negative 4. There is no Lewis structure given. The next acid is hydrogen peroxide. The formula is H subscript 2 O subscript 2. The H subscript 2 is red The K subscript a at twenty-five degrees Celsius is 2.4 time ten superscript negative 12. The Lewis structure is given. There is an H atom which forms a single bond with an O atom with four valence electrons which forms a single bond with another O atom with four valence electrons which forms a single bond with another H atom. The H atoms are red. The next acid is hydrogen selenide. There are two formulas given. The first is H subscript 2 S e. The H subscript 2 is red. The K subscript a at twenty-five degrees Celsius is 1.29 time ten superscript negative four. The second formula is H S e superscript negative sign. The H is red. the K subscript a at twenty-five degrees Celsius is one times ten superscript negative twelve. There is no Lewis structure given for hydrogen selenide. The next acid is hydrogen sulfate ion. The formula is H S O subscript 4 superscript negative sign. The H is red. The K subscript a at twenty-five degrees Celsius is 1.2 times ten superscript negative 2. The Lewis structure is given. An S atom forms a double bond with an O atom with four valence electrons. It also forms a second double bond with another O atom with four valence electrons. The S atom also forms a single bond with an O atom with six valence electrons, and it forms a single bond with an O atom which forms a single bond with an H atom. The H atom is red. The next acid is hydrogen sulfide. There are two formulas given. The first is H subscript 2 S. The H subscript 2 is red. The K subscript a at twenty-five degrees Celsius is 8.9 times ten superscript negative eight. The second formula is H S superscript negative sign. The K subscript a at twenty-five degrees Celsius is 1.0 times ten superscript negative 19. There is no Lewis structure given. The next acid is hydrogen telluride. There are two formulas given. The first is H subscript 2 T e. The H subscript 2 is red. The K subscript a at twenty-five degrees Celsius is 2.3 times ten superscript negative 3. The second formula is H T e superscript negative sign. The H is red. The K subscript a at twenty-five degrees Celsius is 1.6 times ten superscript negative eleven. There is no Lewis structure given. The next acid is hypobromous. The formula is H B r O. The H is red. The K subscript a at twenty-five degrees Celsius is 1.6 times ten superscript negative nine. There is no Lewis structure given. The next acid is hypochlorous. The formula is H C l O. The H is red. The K subscript a at twenty-five degrees Celsius is 2.9 times ten superscript negative 8. There is no Lewis structure given. The next acid is nitrous. The formula is H N O subscript 2. The H is red. The K subscript a at twenty-five degrees Celsius is 4.6 times ten superscript negative four. The Lewis structure is given. An N atom with two valence electrons forms a single bond with an O atom with four valence electrons. The N atom also forms a single bond with an O H group where the O has four valence electrons. The H atom is red. The next acid is oxalic. There are two formulas given. The first is H subscript 2 C subscript 2 O subscript 4. The H subscript 2 is red. The K subscript a at twenty-five degrees Celsius is 6.0 times ten superscript negative two. The second formula is H C subscript 2 O subscript 4 superscript negative sign. The H is red. The K subscript a at twenty-five degrees Celsius is 6.1 times ten superscript negative five. The Lewis structure is given and is the same for both formulas. An H atom forms a single bond with an O atom which has four valence electrons. the O atom forms a single bond with a C atom. The C atom forms a single bond with another O atom with four valence electrons. The C atom also forms a single with another C atom. The second C atom forms a single bond with an O atom with four valence electrons. The C atom also forms a second single bond with an O atom with four valence electrons. The O atom forms a single bond with an H atom. The H atoms are red. The next acid is phosphoric. There are three formulas given. The first is H subscript 3 P O subscript 4. The H subscript 3 is red. The K subscript a at twenty-five degrees Celsius is 7.5 times ten superscript negative 3. The second formula is H subscript 2 P O subscript 4 superscript negative sign. The H subscript 2 is red. The K subscript a at twenty-five degrees Celsius is 6.2 time ten superscript negative eight. The third formula given is H P O subscript 4 superscript two negative. The K subscript a at twenty-five degrees Celsius is 4.2 times ten superscript negative 13. The H is red. The Lewis structure is given and is the same for all three formulas. A P atom forms a single bond with an O atom with four valence electrons. The O atom forms a single bond with an H atom. The P atom also forms a double bond with an O atom with four valence electrons. The P atom forms a single bond with an O atom with four valence electrons. The O atom forms a single bond with an H atom. The P atom also forms another single bond with another O atom with four valence electrons. The O atom also forms a single bond with an H atom. The H atoms are red. The next acid is phosphorous. There are two formulas given. The first is H subscript 3 P O subscript 3. The H subscript 3 is red. The K subscript a at twenty-five degrees Celsius is five time ten superscript negative two. The second formula is H subscript 2 P O subscript 3 superscript negative sign. The H subscript 2 is red. The K subscript a at twenty-five degrees Celsius is 2.0 times ten superscript negative 7. The Lewis structure is given and is the same for both formulas. A P atom with two valence electrons forms three separate single bonds with three O H groups. The O atoms in all three O H groups each have four valence electrons. The H atoms are red. The last acid in the table is sulfurous. There are two formulas given. The first is H subscript 2 S O subscript 3. The H subscript 2 is red. The K subscript a at twenty-five degrees Celsius is 1.6 times ten superscript negative two. The second formula is H S O subscript 3 superscript negative sign. The H is red. The K subscript a at twenty-five degrees Celsius is 6.4 times ten superscript negative 8. The Lewis structure is given and is the same for both formulas. The S atom has two valence electrons and forms a single bond with an O atom with four valence electrons. The S atom also forms a single bond with an O H group. The O atom has four valence electrons. The S atom also forms another single bond with another O H group. The O atom has four valence electrons.\">\n<thead>\n<tr valign=\"middle\">\n<th colspan=\"4\" data-valign=\"middle\">Ionization Constants of Weak Acids<\/th>\n<\/tr>\n<tr valign=\"middle\">\n<th data-valign=\"middle\" data-align=\"left\">Acid<\/th>\n<th data-valign=\"middle\" data-align=\"left\">Formula<\/th>\n<th data-valign=\"middle\" data-align=\"left\"><em data-effect=\"italics\">K<sub>a<\/sub><\/em> at 25 \u00b0C<\/th>\n<th data-valign=\"middle\" data-align=\"left\">Lewis Structure<\/th>\n<\/tr>\n<\/thead>\n<tbody>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\">acetic<\/td>\n<td data-valign=\"middle\" data-align=\"left\">CH<sub>3<\/sub>CO<sub>2<\/sub><strong class=\"emphasis-one\">H<\/strong><\/td>\n<td data-valign=\"middle\" data-align=\"left\">1.8 [latex]\u00d7[\/latex] 10<sup>\u22125<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp39359664\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1sacetic_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td rowspan=\"3\" data-valign=\"middle\" data-align=\"left\">arsenic<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>3<\/sub><\/strong>AsO<sub>4<\/sub><\/td>\n<td data-valign=\"middle\" data-align=\"left\">5.5 [latex]\u00d7[\/latex] 10<sup>\u22123<\/sup><\/td>\n<td rowspan=\"3\" data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp70710144\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1sarsenic_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idm48016224\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform1_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<td data-valign=\"middle\" data-align=\"left\">1.7 [latex]\u00d7[\/latex] 10<sup>\u22127<\/sup><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp4864560\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform2_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<td data-valign=\"middle\" data-align=\"left\">3.0 [latex]\u00d7[\/latex] 10<sup>\u221212<\/sup><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\">arsenous<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>3<\/sub><\/strong>AsO<sub>3<\/sub><\/td>\n<td data-valign=\"middle\" data-align=\"left\">5.1 [latex]\u00d7[\/latex] 10<sup>\u221210<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp239313744\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1sarsenous_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\">boric<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>3<\/sub><\/strong>BO<sub>3<\/sub><\/td>\n<td data-valign=\"middle\" data-align=\"left\">5.4 [latex]\u00d7[\/latex] 10<sup>\u221210<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp263282816\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1sboric_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\">carbonic<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>2<\/sub><\/strong>CO<sub>3<\/sub><\/td>\n<td data-valign=\"middle\" data-align=\"left\">4.3 [latex]\u00d7[\/latex] 10<sup>\u22127<\/sup><\/td>\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp248805232\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1scarbonic_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp18339488\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform3_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<td data-valign=\"middle\" data-align=\"left\">4.7 [latex]\u00d7[\/latex] 10<sup>\u221211<\/sup><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\">cyanic<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>CNO<\/td>\n<td data-valign=\"middle\" data-align=\"left\">2 [latex]\u00d7[\/latex] 10<sup>\u22124<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp104543264\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1scyanic_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\">formic<\/td>\n<td data-valign=\"middle\" data-align=\"left\">HCO<sub>2<\/sub><strong class=\"emphasis-one\">H<\/strong><\/td>\n<td data-valign=\"middle\" data-align=\"left\">1.8 [latex]\u00d7[\/latex] 10<sup>\u22124<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp228303184\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1sformic_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\">hydrazoic<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>N<sub>3<\/sub><\/td>\n<td data-valign=\"middle\" data-align=\"left\">2.5 [latex]\u00d7[\/latex] 10<sup>\u22125<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp263356416\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1shydrazoi_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\">hydrocyanic<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>CN<\/td>\n<td data-valign=\"middle\" data-align=\"left\">4.9 [latex]\u00d7[\/latex] 10<sup>\u221210<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\">hydrofluoric<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>F<\/td>\n<td data-valign=\"middle\" data-align=\"left\">6.4 [latex]\u00d7[\/latex] 10<sup>\u22124<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\">hydrogen peroxide<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>2<\/sub><\/strong>O<sub>2<\/sub><\/td>\n<td data-valign=\"middle\" data-align=\"left\">2.4 [latex]\u00d7[\/latex] 10<sup>\u221212<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp97395280\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1shydroper_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\">hydrogen selenide<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>2<\/sub><\/strong>Se<\/td>\n<td data-valign=\"middle\" data-align=\"left\">1.29 [latex]\u00d7[\/latex] 10<sup>\u22124<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>Se<sup>\u2013<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\">1 [latex]\u00d7[\/latex] 10<sup>\u221212<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\">hydrogen sulfate ion<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp99032000\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform4_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<td data-valign=\"middle\" data-align=\"left\">1.2 [latex]\u00d7[\/latex] 10<sup>\u22122<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp101833664\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1shydrosul_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\">hydrogen sulfide<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>2<\/sub><\/strong>S<\/td>\n<td data-valign=\"middle\" data-align=\"left\">8.9 [latex]\u00d7[\/latex] 10<sup>\u22128<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>S<sup>\u2013<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\">1.0 [latex]\u00d7[\/latex] 10<sup>\u221219<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\">hydrogen telluride<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>2<\/sub><\/strong>Te<\/td>\n<td data-valign=\"middle\" data-align=\"left\">2.3 [latex]\u00d7[\/latex] 10<sup>\u22123<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>Te<sup>\u2013<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\">1.6 [latex]\u00d7[\/latex] 10<sup>\u221211<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\">hypobromous<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>BrO<\/td>\n<td data-valign=\"middle\" data-align=\"left\">2.8 [latex]\u00d7[\/latex] 10<sup>\u22129<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\">hypochlorous<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>ClO<\/td>\n<td data-valign=\"middle\" data-align=\"left\">2.9 [latex]\u00d7[\/latex] 10<sup>\u22128<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\">nitrous<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<\/strong>NO<sub>2<\/sub><\/td>\n<td data-valign=\"middle\" data-align=\"left\">4.6 [latex]\u00d7[\/latex] 10<sup>\u22124<\/sup><\/td>\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp17547328\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1snitrous_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\">oxalic<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>2<\/sub><\/strong>C<sub>2<\/sub>O<sub>4<\/sub><\/td>\n<td data-valign=\"middle\" data-align=\"left\">6.0 [latex]\u00d7[\/latex] 10<sup>\u22122<\/sup><\/td>\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp130935984\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1soxalic_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp216752880\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform5_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<td data-valign=\"middle\" data-align=\"left\">6.1 [latex]\u00d7[\/latex] 10<sup>\u22125<\/sup><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td rowspan=\"3\" data-valign=\"middle\" data-align=\"left\">phosphoric<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>3<\/sub><\/strong>PO<sub>4<\/sub><\/td>\n<td data-valign=\"middle\" data-align=\"left\">7.5 [latex]\u00d7[\/latex] 10<sup>\u22123<\/sup><\/td>\n<td rowspan=\"3\" data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp124453136\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1sphosphor_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp144257472\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform6_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<td data-valign=\"middle\" data-align=\"left\">6.2 [latex]\u00d7[\/latex] 10<sup>\u22128<\/sup><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp268867536\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform7_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<td data-valign=\"middle\" data-align=\"left\">4.2 [latex]\u00d7[\/latex] 10<sup>\u221213<\/sup><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\">phosphorous<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>3<\/sub><\/strong>PO<sub>3<\/sub><\/td>\n<td data-valign=\"middle\" data-align=\"left\">5 [latex]\u00d7[\/latex] 10<sup>\u22122<\/sup><\/td>\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp15659296\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1sphospho2_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idm34225056\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform8_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<td data-valign=\"middle\" data-align=\"left\">2.0 [latex]\u00d7[\/latex] 10<sup>\u22127<\/sup><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\">sulfurous<\/td>\n<td data-valign=\"middle\" data-align=\"left\"><strong class=\"emphasis-one\">H<sub>2<\/sub><\/strong>SO<sub>3<\/sub><\/td>\n<td data-valign=\"middle\" data-align=\"left\">1.6 [latex]\u00d7[\/latex] 10<sup>\u22122<\/sup><\/td>\n<td rowspan=\"2\" data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp138875280\" class=\"scaled-down\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_1ssulfurou_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<\/tr>\n<tr valign=\"middle\">\n<td data-valign=\"middle\" data-align=\"left\"><span id=\"fs-idp99066272\" data-type=\"media\" data-alt=\"\"><img decoding=\"async\" src=\"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-content\/uploads\/sites\/1463\/2021\/07\/CNX_Chem_00_HH_chemform9_img.jpg\" alt=\"\" data-media-type=\"image\/jpeg\" \/><\/span><\/td>\n<td data-valign=\"middle\" data-align=\"left\">6.4 [latex]\u00d7[\/latex] 10<sup>\u22128<\/sup><\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n","protected":false},"author":1392,"menu_order":9,"template":"","meta":{"pb_show_title":"on","pb_short_title":"","pb_subtitle":"","pb_authors":[],"pb_section_license":""},"back-matter-type":[27],"contributor":[],"license":[],"class_list":["post-937","back-matter","type-back-matter","status-publish","hentry","back-matter-type-appendix"],"_links":{"self":[{"href":"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-json\/pressbooks\/v2\/back-matter\/937","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-json\/pressbooks\/v2\/back-matter"}],"about":[{"href":"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-json\/wp\/v2\/types\/back-matter"}],"author":[{"embeddable":true,"href":"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-json\/wp\/v2\/users\/1392"}],"version-history":[{"count":2,"href":"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-json\/pressbooks\/v2\/back-matter\/937\/revisions"}],"predecessor-version":[{"id":2200,"href":"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-json\/pressbooks\/v2\/back-matter\/937\/revisions\/2200"}],"metadata":[{"href":"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-json\/pressbooks\/v2\/back-matter\/937\/metadata\/"}],"wp:attachment":[{"href":"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-json\/wp\/v2\/media?parent=937"}],"wp:term":[{"taxonomy":"back-matter-type","embeddable":true,"href":"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-json\/pressbooks\/v2\/back-matter-type?post=937"},{"taxonomy":"contributor","embeddable":true,"href":"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-json\/wp\/v2\/contributor?post=937"},{"taxonomy":"license","embeddable":true,"href":"https:\/\/pressbooks.bccampus.ca\/aperrott\/wp-json\/wp\/v2\/license?post=937"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}