{"id":491,"date":"2018-04-06T14:22:33","date_gmt":"2018-04-06T21:22:33","guid":{"rendered":"https:\/\/sites.evergreen.edu\/thermo1718\/?page_id=491"},"modified":"2018-04-06T14:22:33","modified_gmt":"2018-04-06T21:22:33","slug":"reading-response-week-12","status":"publish","type":"page","link":"https:\/\/sites.evergreen.edu\/thermo1718\/reading-response-week-12\/","title":{"rendered":"Reading Response, Week 12"},"content":{"rendered":"<div class=\"frm_forms  with_frm_style frm_style_formidable-style\" id=\"frm_form_22_container\" >\n<form enctype=\"multipart\/form-data\" method=\"post\" class=\"frm-show-form  frm_pro_form \" id=\"form_70ed32222222222\"  >\n<div class=\"frm_form_fields \">\n<fieldset>\n<legend class=\"frm_hidden\">Reading Response - Week 12<\/legend>\n<h3 class=\"frm_form_title\">Reading Response - Week 12<\/h3>\n<div class=\"frm_fields_container\">\n<input type=\"hidden\" name=\"frm_action\" value=\"create\" \/>\n<input type=\"hidden\" name=\"form_id\" value=\"22\" \/>\n<input type=\"hidden\" name=\"frm_hide_fields_22\" id=\"frm_hide_fields_22\" value=\"\" \/>\n<input type=\"hidden\" name=\"form_key\" value=\"70ed32222222222\" \/>\n<input type=\"hidden\" name=\"item_meta[0]\" value=\"\" \/>\n<input type=\"hidden\" id=\"frm_submit_entry_22\" name=\"frm_submit_entry_22\" value=\"da3b4a653b\" \/><input type=\"hidden\" name=\"_wp_http_referer\" value=\"\/thermo1718\/wp-json\/wp\/v2\/pages\/491\" \/><div id=\"frm_field_269_container\" class=\"frm_form_field form-field  frm_required_field frm_top_container\">\n    <label for=\"field_ruvfe33333\" class=\"frm_primary_label\">Last Name, First Name\n        <span class=\"frm_required\">*<\/span>\n    <\/label>\n    <input type=\"text\" id=\"field_ruvfe33333\" name=\"item_meta[269]\" value=\"\"  data-reqmsg=\"This field cannot be blank.\" aria-required=\"true\" data-invmsg=\"Last Name, First Name is invalid\" aria-invalid=\"false\"  \/>\n    \n    \n<\/div>\n<div id=\"frm_field_270_container\" class=\"frm_form_field form-field  frm_required_field frm_top_container\">\n    <label for=\"field_dmsrp33333\" class=\"frm_primary_label\">email\n        <span class=\"frm_required\">*<\/span>\n    <\/label>\n    <input type=\"text\" id=\"field_dmsrp33333\" name=\"item_meta[270]\" value=\"\"  data-reqmsg=\"This field cannot be blank.\" aria-required=\"true\" data-invmsg=\"email is invalid\" aria-invalid=\"false\"  \/>\n    \n    \n<\/div>\n<div id=\"frm_field_271_container\" class=\"frm_form_field form-field  frm_top_container\">\n    <label for=\"field_snr0q33333\" class=\"frm_primary_label\">1: In a solution, the primary component is the solvent, and the other secondary components are the solutes. Consider a simple solution, where A is the solvent and B is the solute. Eqs. (5.69) and (5.70) give the chemical potentials for the solvent and the solute, respectively. What happens to the chemical potential of the solvent A as more solute B is added?\n        <span class=\"frm_required\"><\/span>\n    <\/label>\n    <textarea name=\"item_meta[271]\" id=\"field_snr0q33333\" rows=\"5\"  data-invmsg=\"1: In a solution, the primary component is the solvent, and the other secondary components are the solutes. Consider a simple solution, where A is the solvent and B is the solute. Eqs. (5.69) and (5.70) give the chemical potentials for the solvent and the solute, respectively. What happens to the chemical potential of the solvent A as more solute B is added? is invalid\" aria-invalid=\"false\"  ><\/textarea>\n    \n    \n<\/div>\n<div id=\"frm_field_272_container\" class=\"frm_form_field form-field  frm_top_container\">\n    <label for=\"field_nag0y33333\" class=\"frm_primary_label\">2: What is a semi-permeable membrane? What is osmosis?\n        <span class=\"frm_required\"><\/span>\n    <\/label>\n    <textarea name=\"item_meta[272]\" id=\"field_nag0y33333\" rows=\"5\"  data-invmsg=\"2: What is a semi-permeable membrane? What is osmosis? is invalid\" aria-invalid=\"false\"  ><\/textarea>\n    \n    \n<\/div>\n<div id=\"frm_field_273_container\" class=\"frm_form_field form-field  frm_top_container\">\n    <label for=\"field_c9ic633333\" class=\"frm_primary_label\">3: Discuss osmosis in terms of chemical potentials. Discuss osmosis at the molecular level.\n        <span class=\"frm_required\"><\/span>\n    <\/label>\n    <textarea name=\"item_meta[273]\" id=\"field_c9ic633333\" rows=\"5\"  data-invmsg=\"3: Discuss osmosis in terms of chemical potentials. Discuss osmosis at the molecular level. is invalid\" aria-invalid=\"false\"  ><\/textarea>\n    \n    \n<\/div>\n<div id=\"frm_field_274_container\" class=\"frm_form_field form-field  frm_top_container\">\n    <label for=\"field_nkptg33333\" class=\"frm_primary_label\">4: Raoult's law (eq. 5.86) tells us that the vapor pressure of a solution is reduced from the vapor pressure of the pure solvent by a fraction equal to the ratio of the solute molecules to the solvent molecules. The text derives this by looking at chemical potentials. Explain why this reduction in vapor pressure occurs from a molecular level point of view.\n        <span class=\"frm_required\"><\/span>\n    <\/label>\n    <textarea name=\"item_meta[274]\" id=\"field_nkptg33333\" rows=\"5\"  data-invmsg=\"4: Raoult&#039;s law (eq. 5.86) tells us that the vapor pressure of a solution is reduced from the vapor pressure of the pure solvent by a fraction equal to the ratio of the solute molecules to the solvent molecules. The text derives this by looking at chemical potentials. Explain why this reduction in vapor pressure occurs from a molecular level point of view. is invalid\" aria-invalid=\"false\"  ><\/textarea>\n    \n    \n<\/div>\n<div id=\"frm_field_275_container\" class=\"frm_form_field form-field  frm_top_container\">\n    <label for=\"field_nayzt3333\" class=\"frm_primary_label\">5: What does it mean for an energy level to be degenerate? What is the degeneracy of the ground state of hydrogen? What is the degeneracy of the second excited state of hydrogen?\n        <span class=\"frm_required\"><\/span>\n    <\/label>\n    <textarea name=\"item_meta[275]\" id=\"field_nayzt3333\" rows=\"5\"  data-invmsg=\"5: What does it mean for an energy level to be degenerate? What is the degeneracy of the ground state of hydrogen? What is the degeneracy of the second excited state of hydrogen? is invalid\" aria-invalid=\"false\"  ><\/textarea>\n    \n    \n<\/div>\n<div id=\"frm_field_276_container\" class=\"frm_form_field form-field  frm_top_container\">\n    <label for=\"field_vuf2p2\" class=\"frm_primary_label\">6: Eq. (6.3) has a P dV term and a \u03bc dN term, both of which will be thrown away in the derivation that results in eq. (6.5). Why is each term neglected?\n        <span class=\"frm_required\"><\/span>\n    <\/label>\n    <textarea name=\"item_meta[276]\" id=\"field_vuf2p2\" rows=\"5\"  data-invmsg=\"6: Eq. (6.3) has a P dV term and a \u03bc dN term, both of which will be thrown away in the derivation that results in eq. (6.5). Why is each term neglected? is invalid\" aria-invalid=\"false\"  ><\/textarea>\n    \n    \n<\/div>\n<div id=\"frm_field_277_container\" class=\"frm_form_field form-field  frm_top_container\">\n    <label for=\"field_kqp382\" class=\"frm_primary_label\">7: According to the book, what is the \"most useful formula in all of statistical mechanics\"? What does this formula let you determine?\n        <span class=\"frm_required\"><\/span>\n    <\/label>\n    <textarea name=\"item_meta[277]\" id=\"field_kqp382\" rows=\"5\"  data-invmsg=\"7: According to the book, what is the &quot;most useful formula in all of statistical mechanics&quot;? What does this formula let you determine? is invalid\" aria-invalid=\"false\"  ><\/textarea>\n    \n    \n<\/div>\n<div id=\"frm_field_278_container\" class=\"frm_form_field form-field  frm_top_container\">\n    <label for=\"field_8oiru2\" class=\"frm_primary_label\">8: For every trillion atoms in the ground state in a star at T = 5800 K, about how many are in the second excited state?\n        <span class=\"frm_required\"><\/span>\n    <\/label>\n    <textarea name=\"item_meta[278]\" id=\"field_8oiru2\" rows=\"5\"  data-invmsg=\"8: For every trillion atoms in the ground state in a star at T = 5800 K, about how many are in the second excited state? is invalid\" aria-invalid=\"false\"  ><\/textarea>\n    \n    \n<\/div>\n<div id=\"frm_field_279_container\" class=\"frm_form_field form-field  frm_top_container\">\n    <label for=\"field_5y7q02\" class=\"frm_primary_label\">9: What's \u03b2 (beta)?\n        <span class=\"frm_required\"><\/span>\n    <\/label>\n    <textarea name=\"item_meta[279]\" id=\"field_5y7q02\" rows=\"5\"  data-invmsg=\"9: What&#039;s \u03b2 (beta)? is invalid\" aria-invalid=\"false\"  ><\/textarea>\n    \n    \n<\/div>\n<div id=\"frm_field_280_container\" class=\"frm_form_field form-field  frm_top_container\">\n    <label for=\"field_2r11g2\" class=\"frm_primary_label\">10: Consider the situation shown in Figure 6.5, but take one of the atoms with no energy and give it 4 eV of energy. What is the total energy of the system then? What is the average energy of the system?\n        <span class=\"frm_required\"><\/span>\n    <\/label>\n    <textarea name=\"item_meta[280]\" id=\"field_2r11g2\" rows=\"5\"  data-invmsg=\"10: Consider the situation shown in Figure 6.5, but take one of the atoms with no energy and give it 4 eV of energy. What is the total energy of the system then? What is the average energy of the system? is invalid\" aria-invalid=\"false\"  ><\/textarea>\n    \n    \n<\/div>\n<div id=\"frm_field_281_container\" class=\"frm_form_field form-field  frm_top_container\">\n    <label for=\"field_ct58c2\" class=\"frm_primary_label\">11: Describe in your own words what is going on in eq. (6.17).\n        <span class=\"frm_required\"><\/span>\n    <\/label>\n    <textarea name=\"item_meta[281]\" id=\"field_ct58c2\" rows=\"5\"  data-invmsg=\"11: Describe in your own words what is going on in eq. (6.17). is invalid\" aria-invalid=\"false\"  ><\/textarea>\n    \n    \n<\/div>\n<div id=\"frm_field_282_container\" class=\"frm_form_field form-field  frm_top_container\">\n    <label for=\"field_ff8g32\" class=\"frm_primary_label\">12: What's going on in eq. (6.25)? When might you use eq. (6.25) instead of eq. (6.17)?\n        <span class=\"frm_required\"><\/span>\n    <\/label>\n    <textarea name=\"item_meta[282]\" id=\"field_ff8g32\" rows=\"5\"  data-invmsg=\"12: What&#039;s going on in eq. (6.25)? When might you use eq. (6.25) instead of eq. (6.17)? is invalid\" aria-invalid=\"false\"  ><\/textarea>\n    \n    \n<\/div>\n<div id=\"frm_field_284_container\" class=\"frm_form_field form-field  frm_top_container\">\n    <label for=\"field_c12j13333\" class=\"frm_primary_label\">What material from this reading (or previous classes) would you like us to go over in more detail?\n        <span class=\"frm_required\"><\/span>\n    <\/label>\n    <textarea name=\"item_meta[284]\" id=\"field_c12j13333\" rows=\"5\"  data-invmsg=\"What material from this reading (or previous classes) would you like us to go over in more detail? is invalid\" aria-invalid=\"false\"  ><\/textarea>\n    \n    \n<\/div>\n\t<input type=\"hidden\" name=\"item_key\" value=\"\" \/>\n\t<input name=\"frm_state\" type=\"hidden\" value=\"xNFysRh2gLotMRfD+ArbSx8CDECpDYoiWcNysinMx8M=\" \/><div class=\"frm_submit\">\n\n<button class=\"frm_button_submit frm_final_submit\" type=\"submit\"  >Submit<\/button>\n\n<\/div><\/div>\n<\/fieldset>\n<\/div>\n<p style=\"display: none !important;\"><label>&#916;<textarea name=\"ak_hp_textarea\" cols=\"45\" rows=\"8\" maxlength=\"100\"><\/textarea><\/label><input type=\"hidden\" id=\"ak_js_1\" name=\"ak_js\" value=\"183\"\/><script>document.getElementById( \"ak_js_1\" ).setAttribute( \"value\", ( new Date() ).getTime() );<\/script><\/p><\/form>\n<\/div>\n\n","protected":false},"excerpt":{"rendered":"","protected":false},"author":219,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_mi_skip_tracking":false,"_s2mail":""},"_links":{"self":[{"href":"https:\/\/sites.evergreen.edu\/thermo1718\/wp-json\/wp\/v2\/pages\/491"}],"collection":[{"href":"https:\/\/sites.evergreen.edu\/thermo1718\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/sites.evergreen.edu\/thermo1718\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/sites.evergreen.edu\/thermo1718\/wp-json\/wp\/v2\/users\/219"}],"replies":[{"embeddable":true,"href":"https:\/\/sites.evergreen.edu\/thermo1718\/wp-json\/wp\/v2\/comments?post=491"}],"version-history":[{"count":0,"href":"https:\/\/sites.evergreen.edu\/thermo1718\/wp-json\/wp\/v2\/pages\/491\/revisions"}],"wp:attachment":[{"href":"https:\/\/sites.evergreen.edu\/thermo1718\/wp-json\/wp\/v2\/media?parent=491"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}