Participants: Jim Burr
Series Code: HDS
Program Code: HDS000018A
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00:23 Welcome to Heavens Declare.
00:26 And today we're talking about the theory of evolution, 00:31 and going to little greater detail 00:33 we've kind of mention some of the stuff 00:37 on other programs, 00:38 we're gonna focus little bit more today. 00:41 And we actually have a graphic coming up, 00:44 you know, that you see 00:45 so often that they're trying to talk about, 00:50 you know, how we came from chimpanzees. 00:54 And these magazines, 00:55 many times you see a picture saying, 00:57 you know, how we became human showing a baby 01:01 and a monkey or showing a human being and a monkey. 01:07 And it's interesting that Ellen White made a statement 01:13 where she says that, 01:14 "Men are so intent on excluding God 01:17 from the sovereignty of the universe 01:19 that they degrade man 01:21 and defraud him of the dignity of his origin." 01:26 You know, is, does it give you dignity 01:28 to be created in the image of God? 01:30 It does, doesn't it? 01:31 Or you came from a monkey or common ancestor. 01:37 And so some will say, well, slime plus time, you know, 01:40 equals you or they go to you by the way of the zoo, 01:45 but the Bible says, 01:46 "We're made in the image of God." 01:49 What a fantastic creation 01:52 God has done with the human being. 01:57 And to continue on, 01:58 I was reading from a little book called CC 11.3 02:05 and it goes on to say, 02:07 "He who set the starry worlds on high 02:10 and tinted with delicate skill the flowers of the land, 02:15 who filled the earth and the heavens 02:17 with the wonders of His power, 02:19 did not fail to create a being worthy 02:22 of the hand that gave him life. 02:26 Though formed from the dust, Adam was the Son of God." 02:31 So they loved to talk about 02:34 chromosomes are the most 02:38 complex organisms of matter in the known universe 02:43 and that we are only... 02:45 We have 46 chromosomes, the monkeys have 48. 02:49 We're only two chromosomes away from a monkey. 02:55 Actually, a bat has 44 chromosomes, 03:00 we have 46, chimpanzee has 48. 03:03 There are 150,000 base pairs that we've shown you 03:06 the letter codes in your DNA, 03:09 there is six billion letters, A,C,T,Gs, six billion. 03:13 It would take up a couple of million pages 03:16 if you're gonna sit at a keyboard and type it in. 03:19 And so we have what we have a six billion letter codes, 03:24 we have three billion base pairs, okay, 03:27 the combination of these letters. 03:30 And there are approximately 150, 000 base pairs 03:34 of sequence in humans not found in chimpanzees. 03:38 And so the chromosome argument 03:40 does not really carry much water 03:43 because you realize that chickens have 78 chromosomes 03:47 and dogs have 78, 03:49 so chickens and dogs are identical twins. 03:55 And another identical twins would be 03:58 tobacco and chimpanzee. 04:00 Tobacco has 48 chromosomes and chimpanzees have 48, 04:03 so I guess they would be identical twins. 04:06 Now we have another graphic coming up... 04:09 Some scientist at the AIMS University 04:14 have developed this device and I look at that, 04:21 and I look at those into scientists there 04:23 and I bet they spent half a million dollars, 04:25 you look at all the pipes and hoses 04:27 and there's stainless steel fittings, 04:29 all that's involved in that cost a bunch of money and... 04:35 But they actually say that 04:36 they have created a two of the chromosomes... 04:41 That two of the letters chemical... 04:44 Actually, when I talk about the A, C, Ts, and Gs, okay. 04:47 In your genetic code 04:50 we would see a couple of million pages 04:52 if you're gonna type it out of at least four letters 04:55 A, C, Ts, and Gs 04:57 and that is the message, 04:59 that is the letter written by God, 05:01 the message of how every cell in your body works. 05:05 And so the A, C, T they stand for chemicals... 05:09 Cytosine, C stands for cytosine, 05:11 T is thymine, guanine and adenine. 05:15 Those are the four chemicals actually that are in your DNA, 05:20 that the RNA, 05:21 the messenger RNA reads those letter codes 05:24 and converts it to a protein 05:26 which goes and tells all of your cells in your body, 05:30 what's it's gonna make. 05:31 Well, they have made cytosine and thymine 05:34 with this contraption that you saw there. 05:37 And one other uracil 05:39 which is it must be having something to do with the RNA. 05:43 And so these guys took this contraption. 05:46 Okay, I call it contraption 05:49 and they say that we have demonstrated for the first time 05:53 that we can make your cells cytosine, 05:56 thymine all three components of RNA, 05:59 not all of the components 06:01 but they all three are components, 06:05 okay, in the laboratory 06:07 under conditions found in space. 06:11 And they started off with 440 degrees below zero, 06:15 they put this contraption, this substrate in a chamber 06:20 where it is radiated with high energy ultraviolet UV light 06:26 and they have photons from the hydrogen lamp, 06:30 bombarding photons break chemical bonds in the ices 06:35 and breakdown the ice molecules into fragments 06:38 that were then recombined to form new compounds 06:43 such as uracil, cytosine and thymine. 06:47 So we have made some of the things 06:50 that are in DNA with this using what, intelligence. 06:56 Did that look like intelligence those guys, 06:58 those scientists sitting there 07:00 with all these hoses, and pipes, and chemicals? 07:03 And are they gonna make DNA? 07:05 No way, Hosea? 07:07 The complexity that is in your cells 07:12 that tell your body, 07:14 what to do is just beyond belief. 07:21 In your letter codes with the six billion letters 07:25 A, C, T's, and G's there, 07:28 every cell in your body copies this. 07:29 Every cell before it dies copies that recipe for you, 07:34 the blueprint. 07:35 It's a blueprint for you. 07:37 Every cell has that blueprint. 07:38 All God needs to do 07:39 to bring you back to life is have one cell. 07:42 One of your cell, the message is there. 07:45 And it's copied 07:47 in the copying process of six trillion letters to copy, 07:51 it makes mistakes 07:53 because we live in a sinful world 07:55 because we're exposed to environmental stuff 07:56 because of the stuff 07:58 and ingredients we put in our body, 07:59 all of these things make mistakes 08:01 and every cell when it copies, 08:03 it will make from between 100, 000 08:07 and a million mistakes, probably depending on 08:10 what you had for dinner last night. 08:12 If you had a hangover that you're gonna be on a high side, 08:14 I guess. 08:17 Between 100,000 and a million mistakes 08:19 in the copying process of your genetic code. 08:22 That's why you want to follow the eight laws of health, 08:25 so you can be at the lower side of that equation. 08:28 But it has spell-check, 08:29 in the DNA there is spell-check. 08:31 And to have a spell-check you got to have a dictionary. 08:34 We see the same thing when you're on our computer, 08:35 when you're typing a wrong word, 08:37 it will never appear onscreen sometimes, 08:39 the spell-check goes whoo, it fixes at the speed of light, 08:43 but there are sometimes this spell-check goes whoo, 08:46 I don't know, we got a problem. 08:47 We got a problem here, folks. 08:48 And it will give you, 08:50 maybe four or five different words. 08:51 Well, the same thing, 08:52 when the spell-check discovers a problem 08:54 in the crossing of these letter codes, 08:56 and a missing letters, 08:58 and covalent bond, 09:00 and the breaking of the stripes on the band, 09:02 on the DNA, 09:03 it has 50 genes that are gonna fix those. 09:06 to a million mistakes, 09:09 actually one in a billion get through 09:12 but we are going downhill. 09:13 We didn't get Adam's gene pool, he had 930, 09:15 we really didn't get his gene pool, 09:17 we're going downhill, folks. 09:18 And so it's been said the DNA is the language of God. 09:23 You've 23 chromosomes from mom, 23 from dad. 09:27 God wrote a picture of you. 09:30 In your DNA, 09:31 He wrote a picture of you of who are you, 09:33 your features, your fingerprints, 09:35 your voiceprint, you know, personality. 09:40 God wrote a picture of you 09:41 never before seen in the history of the universe 09:44 because every one of you are so special, so different. 09:47 The raw storage capacity of the DNA is staggering 09:51 compared with even the most advanced 09:52 electronic and magnetic storage systems. 09:55 It is theoretically impossible 09:56 to store an exabyte of information. 09:59 If it were coded in DNA 10:01 in the volume of grain of sand, 10:03 an exabyte is roughly equivalent 10:05 to 200 million DVDs. 10:08 I've built a replica of the device 10:12 that Miller and Urey have created to do their experiment 10:15 to see how life could have come from this warm little pond, 10:18 this primordial soup. 10:20 And it's a big glass device 10:22 I knew it couldn't probably safely ship here 10:25 to from Colorado to 3ABN 10:28 so we did a little clip, 10:29 our video crew came in 10:31 and did a video clip of the illustration. 10:34 And so we're ready to do that roll right now 10:39 about the Miller and Urey experiment. 10:42 I'm Jim Burr and I want to take a short clip here 10:45 talking about how life arose on earth. 10:48 The evolution says well, you know, 10:50 we didn't even want to talk about a biogenesis. 10:52 We don't want to talk about chemical evolution. 10:55 Evolution only says how life has evolved 10:59 through mutations, natural selections, 11:02 that's how all these 15 million species 11:04 on earth came to be. 11:06 And so they didn't want to talk about it. 11:08 It's like the Big Bang people, 11:09 they didn't even want to talk about what bang? 11:11 How it bang? 11:12 How, they'll say well, 11:14 doesn't violate the first law of thermodynamics. 11:17 You remember the sound of music, 11:18 nothing comes from nothing, 11:20 that's the first law of thermodynamics. 11:22 And they say, well, no all the laws break down 11:25 at the formation of the creation of the universe, 11:27 therefore we can't go back, 11:29 we want to deal with how the universe has evolved. 11:32 And so evolution in same way, 11:33 we don't want to talk about how it could have started? 11:35 How life could have started? 11:37 Well, they say that's the Big Bang 11:38 and all the planets formed in. 11:40 On earth it rained on the rocks 11:43 and so we had these warm little ponds, 11:45 you know, and that's how life arose. 11:46 Somehow we got amino acids, you know. 11:49 And so a couple of guys back in the '50s 11:52 Miller and Urey did an experiment, 11:54 they wanted to try to replicate what they thought, 11:57 you know, life could have, 11:59 how it could have risen on earth. 12:01 And so they had a device like this. 12:03 They probably say they used intelligence to design this. 12:08 You know, evolution, 12:09 we don't want intelligent design 12:11 and we don't want creation, we want science 12:15 but I'll show you how much intelligence went into this. 12:18 Okay, the first thing they did was they took... 12:21 And there's little container down here 12:22 and they put in methane, ammonia, and water, 12:25 there was no oxygen. 12:27 They call it reducing atmosphere with no oxygen. 12:30 So scientists today say, 12:31 yes, life could not have arisen on earth 12:33 if there was oxygen, 12:35 because they would have oxidized. 12:36 And so we need a reducing atmosphere. 12:38 Was really interesting if you read the books 12:40 about supernovas, 12:42 you will find they say 12:43 that supernova exploding in our galaxy created 12:46 all the elements for life including oxygen. 12:50 And yet, in their experiment they didn't used any oxygen, 12:52 wouldn't permit any oxygen, 12:54 but when you get the first living cell, 12:55 what do you need? 12:57 Copious amounts of oxygen, so you see some of the problem. 13:00 So they put in their chemicals here, 13:01 sealed it up, then they took, 13:04 put a fire underneath here, 13:06 heated this up to boiling 212 degrees. 13:09 Okay. 13:10 And so they make sure that 13:12 they had the concoction evaporated 13:14 and started rising in the tube and went over here. 13:17 And then to simulate lighting that would have been around 13:21 why they flashed 60,000 volts. 13:26 They had 60,000 volts in this little spark indicator here. 13:30 And then it come down, 13:31 they used 300 below zero liquid nitrogen. 13:37 I don't know how would you find that in the primordial soup, 13:40 but that was to condense it. 13:41 And then it came on down 13:43 in this little bottom jar down here we have tar. 13:47 What they made was tar, the stuff we make roads out of, 13:51 okay. 13:53 But I bet, if you took biology, 13:56 they did not tell you some stuff. 13:59 They did not tell you that 14:00 what they made was left-handed and right-handed, 14:03 equal amounts of left-handed and right-handed amino acids. 14:07 There are 20 amino acids, 14:08 all the amino acids require left-handed amino acids. 14:14 There's left-handed rules or right-handed rules 14:16 for various things, 14:17 electricity is one that I was familiar with. 14:20 And so what they made, 14:21 if you had even one right-handed amino acid, 14:25 it would destroy what you're trying to do to create life. 14:29 You know, I mean, this is presented, 14:32 if you look in the textbooks, you'll find this is their best. 14:36 In fact, I was quoting here from Miller's experiment is 14:38 often attributed as the one of the best evidences 14:42 for the evolution of man in history. 14:43 This is, folks, this is the best they got. 14:46 This is the best evolution has and exclusively if you check, 14:49 Dr. Kent Hovind has probably every textbook written 14:52 in the last 60 years. 14:54 And he has done a survey and he says that, 14:56 if you look in the textbook, this is what's presented... 14:58 It still got in the internet, read about Miller and Urey, 15:01 and read about the lies there, the stuff they are saying. 15:04 I was reading the other day and they... 15:07 Origin of atlas of life originating on earth 15:11 and they said that DNA was produced. 15:14 As far as I know is a lie. 15:17 So what they did here was using intelligence 15:21 and the chemicals were not produced by chance, 15:23 they designed the chemicals, 15:26 they assumed no oxygen, 15:28 the chemicals were measured and added at the correct time, 15:33 electric spark was administered at the right moment, 15:36 they mixed the chemicals, 15:38 the experiment was carefully supervised by scientists, 15:42 liquid nitrogen to 400, 300 below zero was used here 15:46 to condense it. 15:49 They used a cold trap to freeze the amino acids 15:52 as soon as they were created 15:54 and they remove from his apparatus through vacuum. 15:58 The only way that you could say the amino acid 16:00 because they deteriorated apparently pretty fast, 16:03 then the reaction was stopped by using barium hydroxide 16:08 and sulfuric acid. 16:10 They were added to improve the impurities 16:13 and each one of the amino acids in life 16:17 are left-handed amino acids. 16:18 So this is the best they got, 16:22 they used intelligence and yet, 16:25 evolution doesn't want intelligence, right. 16:27 They use intelligence to try to do this 16:29 and this is the best, 16:30 they have not come up with anything better. 16:32 It's interesting that Richard Dawkins said that 16:36 he would not be surprised. 16:37 I should not be surprised 16:38 if in the next like a decade or two. 16:42 It is reported that man has been able to midwife... 16:47 Midwife is a word he used, a new form of life in the lab. 16:51 While Dawkins says that many, we're not smart enough today 16:55 but in the future we might be smart enough 16:57 to prove it takes intelligence 17:00 whatever that word midwife means, 17:04 I don't know, a new form of life. 17:07 Folks, evolution, watch our series, 17:10 we got a lot more to come on this, 17:12 so I want to thank you again for watching 3ABN. 17:15 Yes, scientists want a naturalistic explanation 17:19 how life could have arisen. 17:21 And I was reading something 17:23 that was kind of very, very interesting, kind of funny. 17:27 And so, if you can imagine 17:29 a group of atheists sitting around a table 17:32 trying to figure out 17:34 how life got started without a God, okay. 17:38 So someone suggest maybe we got here through panspermia, 17:42 that is the idea that aliens sent DNA and RNA 17:49 and polymers on rockets and came into earth on comets 17:53 and asteroid or something like that. 17:55 Somebody else suggests well, 17:57 may be it was a warm little pond. 17:59 Somebody else says how about spontaneous generation of life. 18:03 Somebody else says, how about... 18:05 And all these scientists sitting around 18:06 and trying to figure this out. 18:08 Other universes did it, you know, how about aliens, 18:12 maybe no one put us here. 18:14 Okay. 18:15 And then somebody says, 18:16 "What about God, and a creator?" 18:18 And the response is, "Leave the room, 18:20 you're not scientific." 18:24 Oh, I thought that was kind of funny. 18:26 The enormous amount of activity that occurs 18:28 inside each of the approximately 18:30 one hundred trillion human cells is shown 18:34 by the fact that at any instant 18:36 each cell contains about one billion ATP molecules. 18:42 One billion little motors. 18:44 Each cell, they're telling us, 18:46 that has a billion of these little motors 18:48 that produce the energy that run. 18:51 And these things spin 18:53 faster than the engine of your car, 18:55 they turn at 10,000 rpm. 18:57 You'd probably blow up the car if you fore boarded. 19:00 I don't think you can even 19:01 may be get your car to 10,000 rpms. 19:04 But you have, they say 19:06 a billion of these little motors in every cell. 19:09 Your entire body is like an electric company. 19:13 So it has to run on electricity, 19:14 this produces electricity that makes the DNA, 19:17 the DNA has the instructions of how to build the ATP motors. 19:22 This is like a perpetual motion machine 19:25 because you can't build the motor without the DNA 19:28 but the DNA can't run without the energy that this makes. 19:32 Yes, our God is an awesome God. 19:37 And so your entire body is like electric company, 19:41 is like a chemical factory, 19:43 it's like the transportation grid. 19:49 It has a communication network, detoxification facility, 19:54 a hospital, a battlefield. 19:57 Your cells, your white blood cells, you know, 19:59 are battlefield, aren't they? 20:01 All rolled into one, 20:03 the workers that drive these activities are your cells. 20:07 And scientific American tells us 20:08 that the living cell is more complex 20:10 than New York City at rush hour. 20:13 I just think this is amazing. 20:14 Your entire body is like electric company, 20:16 a chemical factory, a transportation, 20:18 and a communications network, a detoxification facility, 20:21 a hospital, a battlefield, all rolled into one. 20:26 And the workers that drive 20:27 these activities are your cells. 20:30 Well, we were showing you my illustration 20:33 on the Miller and Urey experiment and... 20:37 If you think about this process that they went through 20:40 and you think about how could this, you know, 20:42 this is using intelligence 20:43 and using all kinds of machines. 20:46 And Darwin's warm little pond, how do you get liquid nitrogen, 20:51 okay, which is what they used to cool it, 20:54 300 below zero. 20:55 How do you get sulfuric acid, barium hydroxide? 21:01 How do you get ammonia and ammonia, methane? 21:06 Actually ammonia, methane, and hydrogen 21:10 and 212 degrees above zero, you know, temperature. 21:15 They say warm little pond... 21:18 If it was 212 would it rain? 21:21 It wouldn't rain you'll just have fog. 21:22 212, it could not rain when it's 212 21:25 but that's what they used to do their experiment. 21:29 Okay, this is the best they've got. 21:31 Okay. 21:33 So how do you make liquid hydrogen? 21:34 Well, you need a cryogenic refrigerator, okay. 21:37 We're talking about the primordial soup 21:39 where life supposed to have arisen, 21:41 and these are the elements you need 21:42 but how do you make these elements? 21:44 Okay. 21:46 You need a cryogenic refrigerator, 21:48 a turbo expander, a machine shop, 21:51 and you should be a good mechanic 21:52 or talented person to do that. 21:55 How do you make sulfuric acid? 21:56 You need oxalic acid, magnesium sulfate, 22:00 a filter equipment, 22:01 you need water, a beaker, a rod, 22:03 and a glass jar to make sulfuric acid, 22:05 that's what they used in that experiment. 22:10 And then they had ammonia, how do you make ammonia? 22:12 Well, you remove the sulfur from natural gas with hydrogen 22:16 to produce hydrogen sulfate. 22:17 Okay. 22:19 This is all the stuff it took it would take 22:21 to start from scratch to get life supposably. 22:23 And they didn't get life, what they made would kill you 22:26 because there is a equal amounts of right-handed 22:29 and left-handed amino acids. 22:32 So you remove the sulfur from the natural gas 22:34 with hydrogen to produce, 22:35 hydrogen sulfate is a by-product 22:37 then you remove the hydrogen sulfide 22:39 by passing this gas mixture through beds of zinc oxide. 22:44 The zinc oxide will react with hydrogen sulfide 22:47 to form zinc sulfate and water. 22:52 Fairy tale, folks, you can go on the internet, 22:54 you can make this stuff in your drive, 22:55 if you're good, 22:57 you know, you got to need a lot of pipe and plumbing 22:58 and heating all kinds of stuff and chemicals. 23:00 But you can find out instructions on the internet 23:02 how to build all the things 23:04 that Miller and Urey did to prove. 23:06 In fact, there is... 23:08 Now the evidence is... 23:10 This is still in the textbooks. 23:12 If you look Miller and Urey, look it up in the internet, 23:14 this is still in the high school 23:16 and college textbooks as best example. 23:19 And then we have the new one I should you from AIMS. 23:23 But you could look it up 23:25 and see how to make that all that stuff. 23:28 But what they did, what Miller and Urey did, 23:30 now scientists are saying is more evidence 23:33 that it could not have evolved, that was a failure. 23:38 There was a cartoon I kind of enjoyed, 23:41 and this cartoon showed a classroom 23:43 and the teacher was saying, first we had the Big Bang, 23:47 then it rained on the rocks, then we had a warm little pond, 23:51 then we had volcanic gases, and lighting, 23:55 and all that equals to DNA, 23:57 and DNA equals man, now class... 24:03 We don't have any of the details, 24:06 know the details of how this all happened. 24:08 Okay. 24:10 But we are here so we know that we evolved. 24:14 And of course, Francis Crick, we talked about before, 24:16 the guy who discovered DNA knows that it's so complex 24:21 there is no way that DNA could evolve on its own 24:24 and replicate itself. 24:26 You know, but he says 24:29 aliens could have sent capsules throughout space, 24:32 capsules with DNA, amino acids, polymers, 24:36 to perpetuate life throughout the universe on comets and... 24:43 You see how desperate he is to get life going and, 24:48 of course, Stephen J. Gould 24:50 talks about a lizard laying an egg. 24:52 And you can't get from a lizard to a bird. 24:54 You can't get from a cow to a whale. 24:56 You can't get a human from a monkey. 25:03 The Bible says, it won't work, 25:05 10 times your Bible says they reproduce after your kind. 25:08 Evolution is based on this warm little pond 25:12 and somehow life began in this warm little pond 25:16 and then once we got life going, 25:19 we had mutations 25:20 and their copying process of these genome and the codes. 25:25 And every once in a while it makes a mistake 25:27 which improves the creature that's trying to evolve, 25:31 and then natural selection, 25:32 survival of the fittest takes over 25:34 and here we are, you know... 25:37 Study the brain, 25:38 you could spend 10 lifetimes studying the complexity, 25:42 the chemistry of eyesight. 25:44 You know, come on, folks, let's think. 25:49 Okay. 25:53 And our time is fast slipping away. 25:56 With 80 million base pairs in the chromosome, 26:00 it unzips at hundreds of places. 26:02 Your DNA is six foot long 26:04 and to copy that, every cell has to copy that. 26:06 And to get... 26:08 If I was just gonna copy the full length, 26:10 it would take you months to copy it. 26:11 But it cuts, each DNA is cut into a like about an inch. 26:15 So we have a 100 copying machines 26:19 with 80 million base pairs and a chromosome, 26:22 it unzips at hundreds of places along the length of the chain, 26:27 talk about multitasking, a 100 copying machines. 26:31 Then these ends are placed back together 26:33 after they're copied and the human copying about 26:36 3, 000 base pairs per minute are copied. 26:41 Three thousand base pairs, 26:43 that's 6, 000 letter codes per minute 26:47 it would take a month without that 100 copying machines 26:54 and you would be dead. 26:56 We'll take a month, in stead, of the hour 26:58 and now take for that... 26:59 It would take you a lifetime to type your code, 27:02 to sit on a keyboard and type out 27:04 a couple of million pages of A, C, T's, and G's 27:07 would take you your whole lifetime. 27:11 But the DNA, the RNA actually, 27:14 the messenger RNA that copies that can do it in an hour. 27:20 Yes, you're fearfully and wonderfully made. 27:24 Our cells, the cells in our body are replaced 27:27 at a rate of millions per second 27:29 from each division previous cell, 27:32 and you can put a 100,000 on the head of the pin. 27:35 Well, we've enjoyed having you watched Heavens Declare 27:40 and on 3ABN, 27:42 and I enjoy sharing this information, 27:46 so we look forward to next week when we'll be back on the air. 27:51 Thank you very much. |
Revised 2017-03-23