4th grade reading & vocabulary
Relationships between scientific ideas in a text | Reading
David illustrates how ideas connect to each other in a scientific nonfiction text, using the story of Mexican chemist and Nobel laureate Mario Molina.
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- Do you know chlorine can destroy our ozone layer and cause damage to our earth?(17 votes)
chlorine and bromine atoms come into contact with ozone in the stratosphere, they destroy ozone molecules. One chlorine atom can destroy over 100,000 ozone molecules before it is removed from the stratosphere(8 votes)
- why and how CFCs can breaks the atmosphere down into chlorine and destroys the ozone layer(6 votes)
- When CFC's get into the atmosphere, the energy given to them by the sun's UV radiation can cause them to break up. The resulting chlorine can react with ozone(O3). This forms oxygen gas (O2) and Chlorine monoxide (ClO-). The chlorine monoxide can react with molecules of oxygen that are produced by the natural breakup and reformation of ozone (ozone is hit with energy, which causes it to split into O2 and O, which come together and form ozone). When the chlorine monoxide reacts with the oxygen, it releases the chlorine and forms oxygen gas. So, the chlorine helped ozone turn into oxygen, which isn't good as now the amount of ozone is lower. Hope this helps.(21 votes)
- What is ozone layer and meaning?(6 votes)
- The ozone layer is a region of the atmosphere that is responsible for blocking harmful UV radiation that comes from the sun. It gets its name from ozone, a molecule made of three oxygen atoms. Ozone is excellent at absorbing the radiation that would otherwise be very harmful for living things. Currently, the ozone layer is getting thinner, because of human-made chemicals such as Chlorofluorocarbons (CFC's) that destroy ozone.(15 votes)
- Did you know that the ozone layer can rebuild itself even if that chlorine guy said that it'd destroy the layer but it can still rebuild itself in some time. Did any of you know that?(7 votes)
- Yes, But it can take years to rebuild itself and if we use that chemical again it might make the hole bigger. (Before when people were using the hairspray it actaully made a big hole in the ozone layer)(4 votes)
- do we lisen to the story(5 votes)
- how can there be a relaationship?(6 votes)
- I had never heard of CFCs before I saw this video. I learned a new word as well as ralationships between scientific ideas in text. I like these videos!(3 votes)
- I agree. these videos explain things I never even thot was a thing!(and they are really fun!)(4 votes)
- how are maps made?(4 votes)
- what do i do i dont know(3 votes)
- You don't know what to do? bruh(3 votes)
- Hat is weird that in the 9170s had big hair but why.(4 votes)
- [David] Hello readers. This is Professor Mario Molina, a scientist who won the Nobel Prize for Chemistry. Now I'm gonna use the example of Professor Molina to teach us about connections, or drawing connections between scientific information in a text, in a piece of writing, because reading scientific papers often involves learning about a bunch of new information all at once and then learning how all of that new information connects. How is information connected? Before we dive into Doctor Molina's life and research, let's use a simple example. A bowl of noodles, say. Let's put a little sauce on those noodles, maybe a little bit of pesto. Just a little bit of green, little bit of basil. Here's a basil leaf. So, using this bowl of pasta as an example. In a piece of nonfiction, we can learn why something happened. We can learn why the pasta was made, you know, maybe I was hungry. We can learn how something happened. So in the case of the pasta, I cooked it in boiling water and then drained it and put some sauce on top and put it in a bowl. We can learn how one event impacted other events. Let's say I had a very late lunch at like 4:00 p.m. that consisted of this pasta and then by 7:00 p.m., when it was time for me to have dinner, I didn't have as much of an appetite 'cause I'd spoiled my appetite with this big ol' bowl of pasta at 4:00 p.m. And we can also learn how events cause other events. So, say I'd had my late lunch of pasta and I wasn't ready for dinner at 7:00 p.m., so I decided to push dinner back a couple of hours. That's, you know, I'm an adult. I eat when I want. Now, I know this example is a little silly, but I wanted to talk about something relatively simple, like a bowl of noodles, before we dive into Doctor Molina and his research, which is about pretty complicated scientific concepts. So, these are just four of the ways that information can be connected. It's not, these aren't the only four ways, these aren't the ways to think about information, but these are some of them and this is a helpful way to think about making connections when you're reading. So, this is taken from a passage on the website about Mario Molina's research. I'm gonna read this passage and as I do, I'm going to try and find connections between pieces of information in the text. I'm going to try and pull out of the passage the stuff that the author wants me to know and the stuff that the author wants me to put together. "As a professor, Mario Molina tackled a question "that no other scientist had before. "It was, how do chlorofluorocarbons," what a long word, "chlorofluorocarbons, CFCs, "affect the atmosphere?" Now this is interesting because these are parentheses and the parentheses are telling us that CFC is a shorter way to refer to chlorofluorocarbon, which we assume is, I'm gonna assume is some kind of chemical and how do they affect the atmosphere. So what is the impact of these CFCs on the atmosphere? And specifically, sentences like these that are built up like this, right? So it's, the passage is setting up the idea that no other scientist had ever asked this question or hadn't successfully managed to deal with it, tackled it, right? What is the impact of these CFCs on the atmosphere? And if you don't know a word like atmosphere, now is a really good time to look it up. Right, the atmosphere is the layer of air and gases that surrounds the rocky part of our planet. So we can just say, the air, just sort of as a rough definition. So how do CFCs affect the air? And so, now we've been cued to look for some sort of cause effect relationship. Now we've been cued for some sort of relationship between CFCs and the atmosphere. They affect it somehow. They do something to it. Let's keep reading. "CFCs are chemicals," great, "once used to cool refrigerators." Okay, so this is starting to answer my next question, like what are CFCs? "They were also used in things like hair spray." So, hair spray and refrigerators. Now, I don't use a lotta hair spray, but I do have a refrigerator in my home, which leads me to think that CFCs used to be pretty common. That's what these two sentences together tell me. I also keyed in on the word, once, here, which suggests to me that they used to cool refrigerators and used to be used in things like hair spray, but I don't think that they are anymore. Probably because of Molina's research. "At this time in the 1970s, "the public believed that CFCs were safe to use." All right, so now I know when this research is taking place is in the 1970s. This also kind of explains the hair spray thing. If you've ever seen a movie from the '70s, people had much much much bigger hair than they do today. So we know that in the '70s, the public, like everybody, believed that CFCs were safe. "However," ooh, love a however, "Molina discovered something else." Something else other than what? Well, because of where this transition is, it's in the next paragraph and it's kind of reflecting back on the previous sentence, I think we can say that something else is that CFCs were maybe not so safe to use, something else was true. "After release, CFCs rise up into the Earth's atmosphere. "There, solar radiation breaks them down "into something called chlorine. "Chlorine destroys the ozone layer, "which shields Earth from the sun's harmful rays." All right, so that's a lot of information all at once and that's a lot of relationships of information all at once. So we've got our little can of hair spray. There it goes. (spraying sounds) And after it's used, it rises up into the atmosphere where rays from the sun hit it and that breaks it down into chlorine and chlorine destroys the ozone layer, which protects us from the harmful rays of the sun. So, let's go back to our pasta bowl and instead of pasta, let's scribble that out and replace it with the destruction of the ozone layer in the '70s. So why did it happen? The answer to that is CFCs got into the atmosphere. I'm just gonna write CFCs, ATMO. How did something happen? Well, when the CFCs get hit by solar radiation, they turn into chlorine and the chlorine eats the ozone layer. And what is the impact of the ozone layer being destroyed? More exposure to solar radiation. And what caused this to happen? The use of CFCs in hair spray and refrigerators. So when you're trying to make connections in a scientific text, ask yourself these questions. Why did something happen, how did it happen, what are the impacts from that thing happening, and does it cause anything else to happen? Taking the information from a text and then kinda plunking it into these questions or these thoughts, is a great way to figure out how information relates to other information within that passage and how it relates to stuff you may already know about. So we say, "Thank you, Doctor Molina, "for saving the ozone layer." You can learn anything, David out.