{"id":700,"date":"2022-06-28T09:00:00","date_gmt":"2022-06-28T16:00:00","guid":{"rendered":"https:\/\/dornsife.usc.edu\/news\/stories\/simply-complex\/"},"modified":"2023-10-30T10:12:23","modified_gmt":"2023-10-30T17:12:23","slug":"simply-complex","status":"publish","type":"post","link":"https:\/\/dornsife.usc.edu\/news\/stories\/simply-complex\/","title":{"rendered":"Simply Complex"},"content":{"rendered":"\n\n\n    \n                                \n\n  \n    \n\n\n\n\n\n\n<div\n  class=\"cc--component-container cc--article-hero \"\n\n  \n  \n  \n  \n  \n  \n  >\n  <div class=\"c--component c--article-hero\"\n    \n      >\n\n    \n<div class=\"inner-wrapper\">\n          \n<div class=\"f--field f--image\">\n\n    \n    \n    \n    \n    \n    \n              \n      <img\n                            data-src=\"https:\/\/dornsife.usc.edu\/news\/wp-content\/uploads\/sites\/7\/2023\/04\/story-3723-768x432.jpg\"\n          data-srcset=\"https:\/\/dornsife.usc.edu\/news\/wp-content\/uploads\/sites\/7\/2023\/04\/story-3723-768x432.jpg 768w\"          data-sizes=\"(min-width:1200px) 75vw, (min-width:768px) 83vw, 100vw\"          class=\"lazyload\"\n        \n                  alt=\"Simply Complex\"\n        \n        \n                                      \/>\n\n    \n    \n  \n  \n\n<\/div>\n  \n      <div class=\"image-caption\">\n          \n<div class=\"f--field f--description\">\n\n    \n  Illustration by Traci Daberko for USC Dornsife Magazine.\n\n\n<\/div>\n    <\/div>\n  \n  <div class=\"text-wrapper\">\n          <nav aria-label=\"Breadcrumb\" class=\"breadcrumbs\">\n        <ul>\n                      <li><a href=\"\/news\/stories\/\">News<\/a><\/li>\n                      <li><a href=\"\/news\/stories\/\/?category=science-and-technology\">Science and Technology<\/a><\/li>\n                  <\/ul>\n      <\/nav>\n    \n              \n<div class=\"f--field f--page-title\">\n\n    \n  <h1>Simply Complex<\/h1>\n\n\n<\/div>\n    \n          <div class=\"subtitle\">\n            \n<div class=\"f--field f--description\">\n\n    \n  The formula is simple, but H<sub>2<\/sub>O is one of the most remarkable substances in the universe.\n\n\n<\/div>\n      <\/div>\n    \n           <strong class=\"author-field\"><span >By<\/span><a href=\"mailto:communication@dornsife.usc.edu\">Darrin S. Joy<\/a><\/strong>\n    \n          <span class=\"post-date-field\">June 28, 2022<\/span>\n      <\/div>\n<\/div>\n\n\n  <\/div><\/div>\n\n  \n    \n\n\n\n\n\n\n<div\n  class=\"cc--component-container cc--social-share \"\n\n  \n  \n  \n  \n  \n  \n  >\n  <div class=\"c--component c--social-share\"\n    \n      >\n\n    \n  <div class=\"content-wrapper\">\n    <span class=\"a2a_kit a2a_kit_size_32 addtoany_list\" style=\"line-height: 32px;\">\n      <span class=\"title\">\n        Share\n      <\/span>\n                        <a class=\"a2a_button_copy_link\" target=\"_blank\" href=\"\/#copy_link\" rel=\"nofollow noopener\" title=\"Link\">\n            <span class=\"a2a_svg a2a_s__default a2a_s_copy_link\">\n              <svg height=\"19\" viewBox=\"0 0 19 19\" width=\"19\" xmlns=\"http:\/\/www.w3.org\/2000\/svg\"><path d=\"m7.43475275 9.52380952-2.17490843 2.26076008c-1.08745421 1.058837-1.68841575 2.518315-1.68841575 4.0350275 0 1.5167124.60096154 2.9475732 1.68841575 4.0350274 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10.8c-1.087-2.114-4.046-6.053-6.798-7.995C2.566.944 1.561 1.266.902 1.565C.139 1.908 0 3.08 0 3.768c0 .69.378 5.65.624 6.479c.815 2.736 3.713 3.66 6.383 3.364c.136-.02.275-.039.415-.056c-.138.022-.276.04-.415.056c-3.912.58-7.387 2.005-2.83 7.078c5.013 5.19 6.87-1.113 7.823-4.308c.953 3.195 2.05 9.271 7.733 4.308c4.267-4.308 1.172-6.498-2.74-7.078a8.741 8.741 0 0 1-.415-.056c.14.017.279.036.415.056c2.67.297 5.568-.628 6.383-3.364c.246-.828.624-5.79.624-6.478c0-.69-.139-1.861-.902-2.206c-.659-.298-1.664-.62-4.3 1.24C16.046 4.748 13.087 8.687 12 10.8\"  fill-rule=\"evenodd\" \/>\n              <\/svg>\n            <\/span>\n            <span class=\"a2a_label visually-hidden\">Bluesky<\/span>\n          <\/a>\n                                <a class=\"a2a_button_email\" target=\"_blank\" href=\"\/#email\" rel=\"nofollow noopener\" title=\"E-mail\">\n            <span class=\"a2a_svg a2a_s__default a2a_s_print\">\n              <svg height=\"12\" viewBox=\"0 0 18 12\" width=\"18\" xmlns=\"http:\/\/www.w3.org\/2000\/svg\"><path d=\"m8.14285714 9.42857143c-.17142857 0-.34285714 0-.51428571.08571428l7.28571427 6.34285719c.3428572.2571428.6857143.2571428.9428572 0l7.2857142-6.34285719c-.0857142-.08571428-.2571428-.08571428-.4285714-.08571428zm-1.28571428 1.11428567v.1714286 8.5714286c0 .6857143.6 1.2857143 1.28571428 1.2857143h14.57142856c.6857143 0 1.2857143-.6 1.2857143-1.2857143v-8.5714286c0-.0857143 0-.0857143 0-.1714286l-7.2 6.3428572c-.7714286.6857143-1.8857143.6857143-2.6571429 0z\" fill-rule=\"evenodd\" transform=\"translate(-6 -9)\"\/><\/svg>\n            <\/span>\n            <span class=\"a2a_label visually-hidden\">Email<\/span>\n          <\/a>\n                  <\/span>\n  <\/div>\n\n  <\/div><\/div>\n \n\n\n\n  \n    \n\n\n\n\n\n\n<div\n  class=\"cc--component-container cc--rich-text \"\n\n  \n  \n  \n  \n  \n  \n  >\n  <div class=\"c--component c--rich-text\"\n    \n      >\n\n    \n      \n<div class=\"f--field f--wysiwyg\">\n\n    \n  <p>It\u2019s something of an enigma: a compound composed of just two chemical elements, one of which is the simplest in the known universe. A pair of hydrogen atoms, holding firmly to a single oxygen atom, create a deceptively minimalist arrangement that belies its enormous versatility and importance.<\/p>\n<p>The value of water, as a resource, is commonly understood. Without a steady supply, civilization as we know it wouldn\u2019t exist.<\/p>\n<p>But as a substance \u2014 as a molecule \u2014 water tends to elude most people\u2019s sense of wonder. Which is too bad, really, because it\u2019s quite remarkable.<\/p>\n<p><strong>Shaped and bonded<\/strong><\/p>\n<p>The basic molecular formula for water, H<sub>2<\/sub>O, suggests a simple structure of three atoms in a straight line. But the physical properties of the three atoms force another arrangement \u2014 a \u201cV\u201d shape with oxygen at the point. This nonlinear shape transforms water into a remarkable substance with astounding abilities.<\/p>\n<p>The \u201cV\u201d shape arises from the arrangement of electrons in the molecule, which causes an imbalance in electrical charge, with the oxygen point of the \u201cV\u201d slightly more negative than the opposite end near the hydrogen atoms. This slight separation means the water molecules are polarized \u2014 one pole positive and the other negative.<\/p>\n<p>Polarity of electrical charge is at the root of water\u2019s fascinating properties. The slightly negative end of one water molecule attracts the slightly positive end of another and vice versa in what scientists call hydrogen bonding.<\/p>\n<p>Hydrogen bonds between water molecules are exceptionally strong, giving them a propensity to cling to each other, a behavior that manifests most commonly as surface tension. For instance, water in a container that is filled to the brim appears to bulge out of the vessel in a convex shape when viewed from the side due to surface tension. And some creatures, such as water striders, can take advantage of surface tension to skim across the surface of ponds.<\/p>\n<p>Hydrogen bonds also enable water to adhere to foreign substances. This adhesive quality enables plants to draw water from the ground, through their roots and up to the tips of their leaves, defying gravity\u2019s pull.<\/p>\n<p>The polar nature of water and its resulting shape cause it to be lighter as a solid than as a liquid. That\u2019s because the molecular Vs form airy crystal structures as they freeze, making ice less dense than its fluid form. So, ice floats on rivers and lakes, forming a shield against the cold air above and keeping the water below from freezing, which allows fish and other aquatic species to survive in colder climes.<\/p>\n<p>Water\u2019s hydrogen bonding also results in another critical characteristic \u2014 a higher than expected boiling point, explains\u00a0<a href=\"https:\/\/dornsife.usc.edu\/chemistry\/parr\">Jessica Parr<\/a>, professor (teaching) of\u00a0<a href=\"https:\/\/dornsife.usc.edu\/chemistry\">chemistry<\/a>. Parr earned her PhD in chemistry at USC Dornsife in 2007 and has taught general chemistry to undergraduates ever since. Her dissertation research centered on understanding how hydrogen bonds react under exposure to intense light.<\/p>\n<p>\u201cIf water wasn\u2019t capable of such strong hydrogen bonding, it would boil at minus 200 degrees Celsius,\u201d Parr explains, far below its actual\u00a0<i>freezing<\/i>\u00a0point of 0 degrees Celsius. That means it would exist on Earth by and large as a gas, making life as we know it impossible. Instead, our planet sloshes with water, about 366 million-billion gallons in all.<\/p>\n<p><strong>A universal solvent<\/strong><\/p>\n<p>Water\u2019s polar nature also makes it an exceptional solvent, capable of dissolving a wide variety of substances.<\/p>\n<p>\u201cWe refer to it as the \u2018universal solvent\u2019 because it can dissolve, not everything, but so much stuff,\u201d Parr says. \u201cA lot of other molecules are choosy about what they interact with and how they work together, but water will interact with just about anything.\u201d<\/p>\n<p>For example, its positive and negative centers attract and easily coax apart charged atoms, called ions, that make up salts such as sodium chloride, commonly used in cooking. The positively charged sodium and negatively charged chloride atoms find a comfortable home drifting among water\u2019s polarized molecules.<\/p>\n<p>But water can also dissolve substances that aren\u2019t composed of ions, such as sugars. Rather than separating individual atoms of a sugar molecule, however, water molecules work their way between each sugar molecule, finding lightly charged parts to hydrogen bond with. This loosens the connections between the sugar molecules, drawing them away from one another and eventually into a solution.<\/p>\n<p>\u201cAs long as there\u2019s one atom present that makes the other molecule want to interact with water, water will do that,\u201d Parr says.<\/p>\n<p><strong>It gets weird<\/strong><\/p>\n<p>Water doesn\u2019t always behave as expected. While it most often transitions from solid (ice) to liquid to gas (steam or vapor) and vice versa as its temperature rises and falls, it can make the leap straight from ice to vapor under the right conditions.<\/p>\n<p>\u201cIf you\u2019ve ever noticed that your ice cubes get smaller over time, it\u2019s because they\u2019re sublimating in your freezer \u2014 the ice turns straight into a gas,\u201d explains Parr. This sublimation is due to the low humidity within the freezer, which allows a few water molecules to escape from the ice into the air withoutmelting first.<\/p>\n<p>In the reverse process, called deposition, gaseous water suddenly freezes without ever becoming liquid. This is how snow forms. And when conditions are right, snow may skip the melting stage and sublimate right back into the atmosphere, a particular conundrum for drought-prone areas such as California, which rely on melting snowpack as a water source.<\/p>\n<p>But water can be even weirder.<\/p>\n<p>\u201cIce has lots of different crystal forms, but it can also exist in a form that resembles glass \u2014 an amorphous solid that is somewhere between liquid and solid and which can still flow,\u201d Parr says. When water molecules coalesce at very low temperatures and pressures \u2014 think outer space \u2014 the resulting ice also can behave like glass, Parr says. Scientists suspect this may be among the most common forms of water in the universe.<\/p>\n<p><strong>The mystery and wonder continue<\/strong><\/p>\n<p>Despite its prevalence in the universe and on Earth, and humans\u2019 long familiarity with it, water continues to surprise.<\/p>\n<p>Scientists recently discovered a form called \u201csuperionic ice.\u201d Existing at extremely high pressure, such as in the core of planets, it appears to play a role in maintaining Earth\u2019s magnetic fields.<\/p>\n<p>And though water in pure form is not an electrical conductor, it behaves unexpectedly when exposed to an electric field. USC Dornsife\u2019s\u00a0<a href=\"https:\/\/dornsife.usc.edu\/chemistry\/benderskii\/\">Alexander Benderskii<\/a>, associate professor of chemistry, and Stephen Cronin of the USC Viterbi School of Engineering recently found that water molecules near an electrode line up differently than those farther away.<\/p>\n<p>\u201cWe were able to see how the molecules interacted with the electric field in a way no one had previously understood,\u201d Benderskii said. The finding could change how chemists control reactions, including processes for making medicines and for purifying water for drinking.<\/p>\n<p>As researchers continue to explore this versatile, unexpected substance, potentially revealing more strange characteristics, water may just prove to be the most complex simple molecule in the universe.<\/p>\n\n\n\n<\/div>\n\n\n  <\/div><\/div>\n","protected":false},"excerpt":{"rendered":"<p>The formula is simple, but H2O is one of the most remarkable substances in the universe.<\/p>\n","protected":false},"author":13,"featured_media":703,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"footnotes":""},"categories":[16],"tags":[78,93,109,89],"class_list":["post-700","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-science-and-technology","tag-chemistry","tag-physics","tag-usc-dornsife-magazine","tag-water"],"acf":[],"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v27.1.1 - https:\/\/yoast.com\/product\/yoast-seo-wordpress\/ -->\n<title>Simply Complex<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/dornsife.usc.edu\/news\/stories\/simply-complex\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" 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