0:00:00.601,0:00:02.229 When a diner comes to Moto, 0:00:02.229,0:00:04.972 what we offer is a tasting menu experience. 0:00:04.972,0:00:07.941 That all starts with a taste of your tasting menu. 0:00:07.941,0:00:09.195 You actually eat the menu, 0:00:09.195,0:00:12.279 and tonight it tastes like an Italian panini sandwich. 0:00:12.279,0:00:16.579 And the reason why we do this is because we want to offer you a seamless experience 0:00:16.579,0:00:19.691 anywhere from two and a half to five hours long, 0:00:19.691,0:00:23.545 so we're basically grabbing your attention the entire time and telling you 0:00:23.545,0:00:26.053 this is our vision in gastronomy, 0:00:26.053,0:00:28.143 and we hope you like it. 0:00:28.143,0:00:31.265 I would describe the cuisine as shocking, yet tasty. 0:00:31.265,0:00:34.968 And also, working with NASA, you might wanna call it intergalactic cuisine. 0:00:34.968,0:00:37.104 But that might be a stretch. 0:00:37.104,0:00:39.567 Here at Moto, all of the chefs are actually servers, 0:00:39.567,0:00:43.243 and this is because you're gonna have many questions on how things are prepared. 0:00:43.243,0:00:46.626 If they're not patent pending technologies, 0:00:46.626,0:00:50.480 then we will explain exactly how things are done. 0:00:50.480,0:00:52.663 So they're very knowledgeable about the food, 0:00:52.663,0:00:55.589 because every dish requires an explanation. 0:00:55.589,0:00:59.459 One of the things that you might experience here we call pancakes made tableside, 0:00:59.459,0:01:03.623 where we take pancakes and puree them into a cooked pancake batter, 0:01:03.623,0:01:08.824 place that into a syringe, and then inject that onto a frozen plate, tableside. 0:01:08.824,0:01:13.941 So the pancake batter, which is cooked, actually freezes into a cooked frozen pancake. 0:01:13.941,0:01:18.772 We flip it over, place it on a spoon with maple syrup, and then you consume this. 0:01:23.035,0:01:24.474 Wow. 0:01:24.474,0:01:26.486 Another example is our printed food, 0:01:26.486,0:01:30.257 where I can print up a picture of, say, cotton candy, and we actually have this on our menu, 0:01:30.257,0:01:32.492 and it looks and tastes like cotton candy. 0:01:32.492,0:01:36.734 You know, your brain is telling you, "This can't possibly be food. 0:01:36.734,0:01:39.666 I'm about to eat a photo of cotton candy." 0:01:39.666,0:01:42.772 And then once you eat it, it's very intense. 0:01:42.772,0:01:45.138 ROCHE: This laser is a Class IV laser. 0:01:45.138,0:01:48.948 And what that means is that it's an infrared wavelength, 0:01:48.948,0:01:51.270 which is why we're wearing the sunglasses. 0:01:51.270,0:01:54.196 What we're gonna use this laser for is a food and wine pairing. 0:01:54.196,0:02:00.419 The food is gonna be a vapor extracted from a freeze-dried orange powder. 0:02:00.419,0:02:04.892 And the wine will go into the glass that the vapor is trapped in, and it's going to create 0:02:04.892,0:02:10.531 a very rich sort of caramel laserized orange quality in the wine. 0:02:10.531,0:02:16.036 CANTU: When I think of molecular anything, I'm thinking of subatomic particle analysis, 0:02:16.036,0:02:18.623 nuclear magnetic resonance machines. 0:02:18.623,0:02:22.376 The only place that I've ever seen that in the food world is our project with NASA, 0:02:22.376,0:02:23.499 where we're working on 0:02:23.499,0:02:25.682 a three-dimensional food printer. 0:02:25.682,0:02:28.608 I would say that this is more of just playful food. 0:02:28.608,0:02:31.518 When we start seeing things go to Mars, then we're getting into 0:02:31.518,0:02:39.010 molecular gastronomy, and breaking down food to its subatomic state. 0:02:39.010,0:02:42.596 ROCHE: Those are in no way, shape, or form anything like Dippin' Dots. 0:02:42.596,0:02:44.313 They're better.