0:00:06.738,0:00:10.329 Why does salt dissolve in water but oil doesn't? 0:00:10.329,0:00:12.124 Well, in a word, chemistry, 0:00:12.124,0:00:14.328 but that's not very satisfying, is it? 0:00:14.328,0:00:17.442 Well, the reason salt dissolves and oil does not 0:00:17.442,0:00:19.152 comes down to the two big reasons 0:00:19.152,0:00:21.348 why anything happens at all: 0:00:21.348,0:00:22.281 energetics 0:00:22.281,0:00:23.489 and entropy. 0:00:23.489,0:00:25.322 Energetics deals primarily 0:00:25.322,0:00:28.203 with the attractive forces between things. 0:00:28.203,0:00:31.155 When we look at oil or salt in water, 0:00:31.155,0:00:34.152 we focus on the forces between particles 0:00:34.152,0:00:36.779 on a very, very, very small scale, 0:00:36.779,0:00:38.180 the molecular level. 0:00:38.180,0:00:39.898 To give you a sense of this scale, 0:00:39.898,0:00:41.599 in one glass of water, 0:00:41.599,0:00:43.110 there are more molecules 0:00:43.110,0:00:45.816 than known stars in the universe. 0:00:45.816,0:00:49.448 Now, all of these molecules are in constant motion, 0:00:49.448,0:00:52.460 moving, vibrating, and rotating. 0:00:52.460,0:00:54.774 What prevents almost all of those molecules 0:00:54.774,0:00:56.858 from just flying out of the glass 0:00:56.858,0:01:00.270 are the attractive interactions between molecules. 0:01:00.270,0:01:01.230 The strength of the interactions 0:01:01.230,0:01:04.482 between water, itself, and other substances 0:01:04.482,0:01:07.733 is what we mean when we say energetics. 0:01:07.733,0:01:09.874 You can think of the water molecules engaging 0:01:09.874,0:01:11.419 in a constant dance, 0:01:11.419,0:01:13.047 sort of like a square dance 0:01:13.047,0:01:16.501 where they constantly and randomly exchange partners. 0:01:16.501,0:01:19.185 Put simply, the ability for substances 0:01:19.185,0:01:20.676 to interact with water, 0:01:20.676,0:01:22.298 balanced with how they disrupt 0:01:22.298,0:01:24.881 how water interacts with itself, 0:01:24.881,0:01:27.230 plays an important role in explaining 0:01:27.230,0:01:29.899 why certain things mix well into water 0:01:29.899,0:01:31.649 and others don't. 0:01:32.048,0:01:33.912 Entropy basically describes 0:01:33.912,0:01:36.631 the way things and energy can be arranged 0:01:36.631,0:01:38.503 based on random motion. 0:01:38.503,0:01:41.200 For example, think of the air in a room. 0:01:41.200,0:01:44.062 Imagine all the different possible arrangements 0:01:44.062,0:01:46.650 in space for the trillions of particles 0:01:46.650,0:01:48.131 that make up the air. 0:01:48.131,0:01:49.167 Some of those arrangments 0:01:49.167,0:01:52.163 might have all the oxygen molecules over here 0:01:52.163,0:01:54.814 and all the nitrogen molecules over there, 0:01:54.814,0:01:55.855 separated. 0:01:55.855,0:01:58.230 But far more of the possible arrangements 0:01:58.230,0:02:01.230 have those molecules mixed up with one another. 0:02:01.230,0:02:03.481 So, entropy favors mixing. 0:02:03.481,0:02:06.334 Energetics deals with attractive forces. 0:02:06.334,0:02:08.417 And so, if attractive forces are present, 0:02:08.417,0:02:10.321 the probability of some arrangements 0:02:10.321,0:02:11.500 can be enhanced, 0:02:11.500,0:02:13.780 the ones where things are attracted to each other. 0:02:13.780,0:02:16.294 So, it is always the balance of these two things 0:02:16.294,0:02:18.871 that determines what happens. 0:02:18.871,0:02:20.285 On the molecular level, 0:02:20.285,0:02:22.664 water is comprised of water molecules, 0:02:22.664,0:02:25.829 made up of two hydrogen atoms and an oxygen atom. 0:02:25.829,0:02:28.497 As liquid water, these molecules are engaged 0:02:28.497,0:02:30.831 in a constant and random square dance 0:02:30.831,0:02:34.386 that is called the hydrogen bonding network. 0:02:34.386,0:02:35.771 Entropy favors keeping 0:02:35.771,0:02:38.018 the square dance going at all times. 0:02:38.018,0:02:39.314 There are always more ways 0:02:39.314,0:02:41.142 that all the water molecules can arrange 0:02:41.142,0:02:42.349 in a square dance, 0:02:42.349,0:02:44.790 as compared to if the water molecules 0:02:44.790,0:02:45.421 did a line dance. 0:02:45.421,0:02:47.781 So, the square dance constantly goes on. 0:02:47.781,0:02:50.750 So, what happens when you put salt in the water? 0:02:50.750,0:02:52.748 Well, on the molecular level, 0:02:52.748,0:02:55.584 salt is actually made up of two different ions, 0:02:55.584,0:02:57.838 chlorine and sodium, 0:02:57.838,0:03:00.082 that are organized like a brick wall. 0:03:00.082,0:03:01.502 They show up to the dance 0:03:01.502,0:03:03.386 as a big group in formation 0:03:03.386,0:03:05.040 and sit on the side at first, 0:03:05.040,0:03:07.431 shy and a bit reluctant to break apart 0:03:07.431,0:03:10.272 into individual ions to join the dance. 0:03:10.272,0:03:12.456 But secretly, those shy dancers 0:03:12.456,0:03:15.009 just want someone to ask them to join. 0:03:15.009,0:03:18.233 So, when a water randomly bumps into one of them 0:03:18.233,0:03:20.817 and pulls them into the dance away from their group, 0:03:20.817,0:03:21.983 they go. 0:03:21.983,0:03:23.362 And once they go into the dance, 0:03:23.362,0:03:24.948 they don't come back out. 0:03:24.948,0:03:27.352 And in fact, the addition of the salt ions 0:03:27.352,0:03:29.412 adds more possible dance positions 0:03:29.412,0:03:30.790 in the square dance, 0:03:30.790,0:03:33.973 so it is favored for them to stay dancing with water. 0:03:35.156,0:03:37.119 Now, let's take oil. 0:03:37.119,0:03:39.800 With oil, the molecules are sort of interested 0:03:39.800,0:03:40.887 in dancing with water, 0:03:40.887,0:03:43.138 so entropy favors them joining the dance. 0:03:43.138,0:03:45.193 The problem is that oil molecules 0:03:45.193,0:03:47.471 are wearing gigantic ballgowns, 0:03:47.471,0:03:50.040 and they're way bigger than water molecules. 0:03:50.040,0:03:52.474 So, when an oil molecule gets pulled in, 0:03:52.474,0:03:55.299 their size is really disruptive to the dance 0:03:55.299,0:03:56.919 and the random exchange of partners 0:03:56.919,0:03:58.622 that the waters engage in, 0:03:58.622,0:04:00.329 a very important part of the dance. 0:04:00.329,0:04:02.885 In addition, they are not great dancers. 0:04:02.885,0:04:04.805 The water molecules try to engage 0:04:04.805,0:04:06.464 the oil molecules in the dance, 0:04:06.464,0:04:08.890 but they just keep bumping into their dresses 0:04:08.890,0:04:11.550 and taking up all the room on the dance floor. 0:04:11.550,0:04:13.723 There are way more ways the waters can dance 0:04:13.723,0:04:15.765 when the oil gets off the floor, 0:04:15.765,0:04:18.214 so the waters squeeze out the oil, 0:04:18.214,0:04:20.803 pushing it back to the bench with the others. 0:04:20.803,0:04:22.887 Pretty soon, when a large number of oils 0:04:22.887,0:04:24.971 have been squeezed over to the side, 0:04:24.971,0:04:27.280 they band together to commiserate 0:04:27.280,0:04:29.455 about how unfair the waters are being 0:04:29.455,0:04:31.408 and stick together as a group. 0:04:31.408,0:04:32.746 So, it is this combination 0:04:32.746,0:04:35.082 of the interactions between molecules 0:04:35.082,0:04:37.472 and the configurations available to them 0:04:37.472,0:04:38.890 when they're moving randomly 0:04:38.890,0:04:41.216 that dictates whether they mix. 0:04:41.216,0:04:43.637 In other words, water and oil don't mix 0:04:43.637,0:04:47.217 because they just don't make great dance partners.