Category: Science

Unit 6 Intro to Chemistry Reflection

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How much did you know about Chemistry when we started? When we first started, all I really knew about chemistry was from our short unit last year. Even then, I forgot a lot of what we learned. I really only knew a little bit about chemical reactions and the periodic table. I feel like after this unit, I really learned a lot more about chemistry, but I know there’s still so much more that chemistry offers and we haven’t gotten into yet.

What learner profile best describes your approach to this unit? I think the learner profile that describes my approach in this unit is open minded. This unit was pretty different from the other units we did throughout the year, so it was a bit hard to understand what was going on at first. However, as the unit went on, I learned how to be open to this topic (chemistry) and that helped me to learn.

Considering you will have Chemistry next year in G9–how will you prepare for the class over the summer?
What is one goal you will set for yourself for the Chemistry class next year? I think I have a lot to learn over the summer, especially about chemistry, and that’s what this unit taught me. There’s so many different things like moles, atoms, balanced equations, these things are all going to be in next year’s classes, so it would be nice for me to learn what they are over the summer. I think I want to set the goal of having a good basis of understanding for chemistry (knowing the basics of most common elements and how they react/relate to each other).

Unit Reflection – Waves/Musical Instruments

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What was the hardest part of this task? Easiest? I think the hardest part of this task is figuring out your dependent variables and how you’re going to measure them. For me, I didn’t really want to do anything with frequency because I thought everyone would do it, so I decided to measure amplitude. However, I didn’t really know what units amplitude used, especially since it’s measured in meters. I had to do some research about how to measure of amplitude using digital apps and digital measures. I thought the easiest part was making the instrument because it was actually fun, so it didn’t feel like work.

One of the Approaches to Learning (ATL) suggested for Science in the MYP is stated below:

Social skills–Practise giving feedback on the design of experimental methods

Discuss the statement above as you reflect on your planning and building of your instrument. I thought the way that this summative was designed, it gave a lot of room for others to reflect on our instrument and for us to reflect on our instrument. By having to explain to the class and give a demonstration, I think the students were given a chance to think about what they wanted their variables to be and how they wanted the class to view their experiment. It makes people really think about what they want to do in their experiment if they know other people will listen to them talk about it.

How successful was your instrument in the 5 tests? Which test(s), if any, did your instrument fail? Be honest! Discuss your ideas on how to improve your instrument. I think my instrument didn’t do very well in holding up throughout the whole of the project. The cardboard that held up the instrument was too flimsy to keep holding up the milk bottles, so we had to make some adjustments to the design of the instrument in order to help support the weight of the bottles and take pressure off of the thin piece of cardboard. We ended up having to cut foam and put it underneath the glass bottles.

Discuss why you built the instrument you did? Do you play a similar instrument? Was it an instrument you thought would be easy to be successful building, intrigued or challenged you? I play piano and violin, but it wasn’t really like them. It’s probably most similar to the piano however, the mechanics work differently. I would like to explore wind instruments like the flute Paul made because it seemed to work really well.

Energy Unit Reflection

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I think in this unit and through my paper, I was able to demonstrate the learner profile thinker because this unit was a bit more of an opinionated project. This meant that I was given more freedom to really think about what I personally thought was the best source of energy, and what I thought was going to be the energy source of the future. I wanted to make sure that I honestly believed in what I was writing about before I wrote the paper, so I made sure to really think about the advantages and disadvantages of each energy source before I wrote about them. For example, yes, renewables will greatly help the problem of global warming and help climate change (main problem we face/the reason we are looking at other energy sources in the first place) but renewables take up a lot of space while still not being as effective as other sources of energy. Nonrenewable forms of energy are also a big risk to put all our effort in because they produce waste, like how nuclear energy produces nuclear waste. However, they are able to be a lot more efficient and reliable compared to renewables. I think the main thing I took from this unit is the fact that we as a society have to really think about what’s going to be best for us to not only preserve our planet but still be able to further our development/growth. We have to think about and consider the benefits and consequences of using each type of energy source and should use a combination of all types of energy sources to maximize efficiency. The problem with the industrial revolution and the burning of all that coal/oil is that we only used one type of energy and did not invest in any other forms of energy, so now we’re running out. We need to realise that if we only use one type of energy, we’re going to run into the same problem again and again. It’s only a mixture of all types of energy sources that will be the best solution.

I’m most proud of the organization of my essay. I think I did a really good job with separating my points into sections; introduction, background, environmental considerations, etc. The organization of the essay and the way it was arranged helped the development of the readers’ understanding of the topic and how easy it was to understand and comprehend the essay. The way I wrote it made it so that they were able to have an overview of the topic, understand how it works, then have the 2 explanations of why I think this is the best energy source and a conclusion. I was also really proud of how I was able to keep track of all my sources. Usually, I lose track of some sources, or can’t find where I found the information, so I think keeping them all on one doc really helped me to trace the information back to where I got it from.

Like I mentioned in the first paragraph, I firmly believe that all forms of energy are related and that using any energy resource has both positive and negative consequences. Using too much of something is never a good idea of course. That’s what happened with coal and oil. We were focused on reaping the benefits of all the energy we got to the point where we disregarded the fact that using so much can have drastic consequences on our world. I feel like when humanity first started using coal/oil that the possibility of using too much was too absurd and unimaginable for them, but then as cities started growing and we started to rely on constant energy to complete daily tasks, energy became a neccessity and it was too late to stop. This is why we should put our time and resources into all types of energy sources.

Simple Machines – Pulley Reflection

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1. What were your contributions to the success of your group’s lesson presentation? Be specific. What parts did you research, what parts of the experiment did you have responsibility for, what were your responsibilities for the lesson preparation and presentation? Our group split the project into 3 main parts. The 1st being background information on pulleys, the second being the experiment, and the last being examples of pulleys in real life. Since we wanted to have as much time to write the lab “report” about the experiment, the first thing we did was to design the experiment as a group and perform it. After that, we went to work on our individual parts. My job was to work on the lab report of the experiment and then turn it into slides on the presentation.

2. Describe one part of this project that was a challenge? How did you respond to this challenge?  One challenging part about the project is that we weren’t given a lot of time, about a week and a half to finish everything. I had major concerns over whether or not we would finish everything at the beginning. However, I think after organising the project into parts, we had a much clearer idea of what we were doing and what we had to do in order to finish the project.

3. Describe what you most enjoyed about the project? What part are you most proud of–that you say “WE DID GREAT”? I enjoyed the presentation part of the project most, because I’m really proud of how we came together at the end to give our presentations. It’s not easy to be the first ones presenting and I’m really glad our group was able to take the challenge in stride to give a clear presentation.

4. Long after this project has ended, what parts of the experience will you remember? (…“the nightmare is over, I have blocked it completely from my mind!”…hopefully not!). I think I’ll remember that it’s better to prioritize and plan what parts of the experiment to do. It’s very effective to do that because people know what they’re doing and are able to complete their parts efficiently. I think that works really well for people who are struggling to work in groups.

Here is our finished slide presentation:

A Brief Overview of Mitosis and Meiosis

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In this unit, we learned about cell division and cell reproduction, mostly through the process of mitosis and meiosis. Mitosis occurs whenever more cells are need and can happen in animals during regeneration or during asexual reproduction. During mitosis, the cell is able to duplicate itself and make another cell that is exactly the same, including the same DNA, genes, everything. There are 6 different phases that occurs during mitosis in order for the cell to copy itself: interphase, prophase, metaphase, anaphase, telophase, and cytokinesis. In interphase, there are 2 different stages that happen; the G1 and S stages of interphase. In G1, that’s when the cell gets bigger and the cell starts to prep itself. Then directly after that, comes the S stage of interphase, which is when the chromosomes all make an exact copy of themselves (called sister chromatids). These sister chromatids have the exact same genes and structure. There’s another growth phase in interphase called G2 that happens, but it’s not as important. Then comes prophase, which is when the chromatin condenses and you’re actually able to see the chromosomes. In interphase, since the chromatin wasn’t very tightly packed together, you weren’t able to really see the chromosomes yet. It’s also between prophase and metaphase that the nuclear membrane disappears, which will come in handy during metaphase. So in metaphase, things called centrioles will move to the opposite ends of the cells and microtubules will come out from the centrioles and attach onto the centromeres of the chromosomes. This is able to happen because the nuclear membrane has dissolved, and the chromosomes, which were previously inside the nucleus, are now just in the cell and no longer protected by the nuclear membrane. The microtubules will eventually develop into spindle fibers. The spindle fibers tug from the opposite poles of the cell in order to get the chromosomes to line up directly down the middle of the cell. Now comes the anaphase part of mitosis. In anaphase, the chromosomes break at the centromeres, and the sister chromatids are pulled to opposite sides of the cell. In telophase, the nuclear membrane reforms around each group of one half of the sister chromatids on each side of the poles. The nucleoli will reappear and start to decondense back into chromatin. The last step is cytokinesis. In this phase, the cytoplasm should divide in 2, creating the 2 new daughter cells.

 

Meiosis is slightly different because instead of wanting to duplicate the cells, you want to create genetically different cells. The process is still similar to mitosis although you will end up with 4 daughter cells instead of 2. The beginning is roughly the same. It first starts with interphase, where the DNA duplicates itself. However, now we go into prophase 1, where homologous chromosomes pairs (maternal and paternal chromosomes with the same length and genes in the same place, however, there can be different alleles for each gene) come together so tightly that they might switch genes. The process keeps going, metaphase, anaphase, telophase…but instead of stopping there, then the process starts again with the 2 daughter cells at prophase 2, then goes into metaphase 2, anaphase 2, telophase 2 and this is what’s able to create the 4 daughter cells. In males, each of the 4 cells will become a sperm, however, in females, only one chosen cell will become the egg. This is important because if you remember in prophase 1, in meiosis, the homologous pairs are so tightly wrapped around each other that the genes sometimes swap. So when anaphase occurs and pulls these new sequence of genes to the different daughter cells, there’s a chance that one of the new sequence of genes in chromosomes that carries an undesirable disease has ended up in the one chosen egg.

 

This unit was interesting to learn about because we were able to discover a lot about ourselves and why our DNA came to be the way they are. It was also really cool to see how certain people come to have a mutation or inherited disease through looking at the DNA and their parents’ DNA. We mostly studied using the different directed reading worksheets that quizzed us on what we learned in class/the textbook but there were also a few informative videos we were able to watch that really helped us to understand what was happening in the 2 processes of cell reproduction. There have been current advances in genetic technology and scientists are currently working on a method that will allow them to be able to take a mutation in someone’s gene that causes them to have a disease and to cut out that specific gene out and replace it with a normal one. This is way more advanced than anything before because it’s actually stopping the root of the disease and not just giving the people drugs that will help combat the symptoms of the disease. The future of genetic modification is rapidly approaching with the help of advancements in technology and this will help people, especially ones with life altering diseases to live, not just survive.