SBG #3 Our plate Boundary vs Plate Boundary On Google Earth

By: Alix Fernando

Beth Reecer

Brenda Pedroncelli

Yoenesha Ortiz

Our observations and the characteristics of the different boundaries were similar to the boundaries on google earth. Above we provided a T chart of the comparisons. Down below is a picture of the different types of boundaries labeled on the map.
 down below is a picture of google earth and how the plate boundaries look very similar to ours.



Soth American Plate Earthquake/Volcano Occurrence

By: Alix Fernando

Beth Reecer

Brenda Pedroncelli

Yoenesha Ortiz

For the Earthquake occurrence we chose the one that happened on May 22, 1960 at 7:11 in the evening. This earthquake is very large and is a 9.5 that struck 180 feet below the sea and 100 miles off the Chilean coast near Valdivia. During this earthquake waves weer 25 meters high. Also the tide was 10 feet in height after 22 hours of the earthquake. Earthquake warnings and evacuations were used to save the lives of many people.

For the volcano occurrence we chose Mt Hudson and its a stratovolcano in southern Chile. It occurred August to October 1991. It had a volcanic explosivity index of 5. The volcano ejected 4.3 km ^3 of bulk volume. Also the volcano is covered by a glacier which caused it to melt and caused mudd flows. There was no deaths but people had to evacuate. Ash feel on Chile, Argentina, South Atlantic Ocean, and the Falkland Islands. There was a large amount of sulfur dioxide gas and aerosol ejected causing the ozone to depleat and the arctic ozone hole to grow to its largest levels ever recorded in 1992 and 1993. Down below is a picture of Mt Hudson.

Astronomy Process of Science due 11/22

Alix Fernando

Scientific Process

Astronomy

At first I found astronomy difficult but towards the middle it was interesting and I learned a lot about our universe and how it works. With astronomy the process of science is not linear at all. In order for me to do research about planet Earth I had to make observations of what I saw in the sky during day and night. Some observations included the direction and times of sunsets, sunrises, and where the moon rises and sets. Then in order to understand the rotation of earth we had to watch videos on you tube about Foucault’s pendulum. While doing all this research a lot of questions arise and they need answers. This makes me think, read more information, ask questions, watch videos, explain what I learned to my partners, put our information together to see a bigger picture, ask more questions, and investigate the known to understand everything we are seeing and hearing about our universe. For example we spent a lot of time on seasons and why we have different seasons during the year. I learned we have different seasons due to the tilt of the Earth’s axis and how it is orbiting around the sun. While the Earth is orbiting around the sun different parts of the Earth are pointed in the direction of the sun or away from the sun which causes it to be cold or warm in different areas of the world. Also while researching about the universe we have to be careful with information because it is always changing. For example Pluto use to be a planet and now it is not because it doesn’t fit all the characteristics of what a planet is. Also scientist still don’t know the age of the moon because new craters always appear on the moon and the only way to tell the age of our lunar moon is to count each crater, which hasn’t been accomplished. Next, the part of astronomy that was a bit difficult was when we talked about Newton’s Law of Universal Gravitation and the formula fgravity*M1*M2/ d^2.  This meant that the force between two objects is proportional to the mass of the objects and inversely proportional to the square of the distance. At first this was difficult to understand but I found this equation important because it helped me research Newton’s Cannon. Newton’s cannon was my group project and Newton used this to explain how a projectile can orbit around the Earth at a certain speed. After researching we found out the speed is 8000m/s, so this means for every horizontal distance of 8000 m/s the Earth curves downward by 5 meters. This was an amazing discovery because it helped start the invention of satellites and how to send them up into space to orbit around the Earth. With this amazing invention we are able to observe our planet and see how it works. As my group and I researched Newton’s cannon it was difficult because we had to look up many websites, definitions, and put all the info together like a puzzle to figure out Newton’s cannon and why it is important. Also what I like about Newton’s Cannon is that I can relate it back to the physics portion of class because we also worked with projectiles and Newton’s three laws. Projectile meaning it is an object where only the force of gravity is acting on it. For example we did a lot of free fall experiments where we recorded length, time, and calculated the force of gravity pulling on an object. So it was easy to understand what projectile meant because we worked with it in physics and then I related it to astronomy. Now instead of the object falling and hitting the ground it is different with astronomy, in astronomy we have the object falling but staying in a circular orbit due to gravity pulling on it and making it orbit around the Earth. I think it is crazy how after learning one science it has so many similarities or leads into another topic of science. I enjoyed how as a class we all researched different points of astronomy and taught it to one another through a visual presentation. According to the different learning styles it seems like everyone learned best through the psych-motor domain because people had resources to touch and look at so they could examine and interpret the information in their own ways. Also as a class we learned through our cognitive domains when we had to use excel to make data and graphs to look at and compare it with our world maps. I found this hard because I don’t learn through the cognitive domain and it was difficult to understand the graphs, but I got it now. For example when you came over and started explaining and showing us the globe and how it rotates that was great. Your quick presentation gave me a visual and this made the learning easy for me. After your explanation everything was clear and it was easy to see how the sun elevation could be high in some graphs or what season it is and what the temperature is like. It was fun and I enjoyed learning with my group because I didn’t feel alone or confused. Anyways I think astronomy was fun and I wish we could have spent more time on it but I still like physics better. It was nice to learn about the planets and I think it is scary how gravity plays a huge role in our planet. Sometimes learning about science is scary because all these what if’s float around and I wouldn’t want anything bad to happen to planet Earth because I enjoy living here and I am thankful to be a part of this planet that has a human race.

Beth Reecer, Alix Fernando, Caitlin Jay, Briana Duran

Balloon Car Experiment

Physics is matter and it's motion combined with energy and forces. In our group we decided to do a physics experiment with a balloon car. We wanted to see how fast the balloon car would travel in .5m, 1.0m, and 1.5m. We used four different color balloons to see if one balloon might do better than another. We also made sure to blow up the balloons to .80 m for each color of balloon.

This is a picture of the balloon car. We made the car out of paper, a plastic water bottle, 4 spools of thread, tape, push pins, and straws. We found many different variations online and composed our car of the best ideas. We made a few changes to our car during the experiment because the tape we used to hold the wheels in place kept sticking. We replaced the tape with push pins later on once we observed the tape was a problem.

Newton's first law of motion is often stated as an object at rest stays at rest and an object in motion stays in motion with the same speed and in the same direction unless acted upon by an unbalanced force. F=M*A

In this video Briana is showing the first trial of our balloon car using a blue balloon. The balloon car stays in motion as the air in the balloon is slowly let out. The air coming out of the balloon allows the car to have motion by accelerating as the balloon car travels. If the balloon car was not acted upon it would remain at rest not moving at all. Since Briana blew up the blue balloon and attached it to the car the balloon car then began accelerating. The blue balloon had similar times which gave us hope for the trials to come.

Newton's second law of motion states, the acceleration of an object is directly proportional to the net force acting on it and is inversely proportional to the mass of an object. A=VF-VI/T

In this video Alix is using the red balloon to power the balloon car. We had the most trouble with the red balloon. This might have occurred because mass has a certain resistance to motion called inertia. The force on the red balloon had a push/pull upon the car resulting in an interaction. Either the balloon car would accelerate or in a lot of our trials stop and rest.

Newton's third law states, when one object exerts a force on a second object the second object exerts an equal but opposite force on the first.

In this video Caitlin had the pink balloon. The pink balloon was exerting an equal force on the car making the balloon car either accelerate or remain in its tracks on the table.

Beth used the orange balloon to move the balloon car.

Conclusion: In our experiment we learned to be patient because there were many balloon car trials that didn't work as smoothly as we hoped. After all four of the balloons had their three trials we had to calculate the speed of our balloon car. Speed is the distance over a certain interval of time.

Speed=Distance/Time

Velocity is the rate of change of a distance. Velocity represents both speed and direction.V=D/T Instantaneous, average Vinitial+Vfinal/2=Vaverage and final velocity VF=2Vaverage.

Down below is our graph for distance and time of each balloon and its 3 trials.

 Kinetic Energy

Blue Balloon is KE = 1/2*.021*2.46=0.0635418 joules

Pink Balloon is KE=1/2*.021*1^2=0.0105 joules

Red Balloon is KE=1/2*.021*.7^2=0.005145 joules

Orange Ballon is KE=1/2*.021*2.2^2=0.05082 joules

Proving Newtons laws of motion

By: Alix Fernando

Beth Reecer
Briana Duran

Caitlin Jay

First Law

For the first law we used the weight and the spring balance to demonstrate that the weight was at rest because no outside force affected it.

For the car experiment we are showing the car going at constant velocity until it runs into the backpack, which changed the velocity because of the friction and the force of the backpack.

For the marbles we showed them at rest because no force was being acted upon it so this shows Newtons first law that these two marbles will not move because the force is zero.

For the pendulum we showed it at rest with no force and in motion when we pulled back one silver ball that exerted force and caused the pendulum to move.

Second Law

For the second law we shown the weight at rest on the scale. On the scale it reads that the weight is 295 grams and we need to convert 295 grams to kilograms so now the new number is .295 kg. In order to figure out the force of how much the earth is pulling on the weight we use the equation F=ma. we calculated .295kg times 10 m/s^2 and this equals 2.95 Newtons and this is the force of earth pulling on the weight. The picture is above in the first law.

Next, shown below we have a video showing force being pulled on the spring balance because the car was accelerating.

For the marbles at rest on the table we used the equation F=ma to see how much the earth is pulling on the marbles. We used the scale to measure the weight of a marble in grams which is 6 grams. Next we converted the 6 grams into kilograms which is .006 kg. Therefore the force of the earth pulling on each marble is .006 kg times 10 m/s^2 equals 0.06 Newtons.

For the Pendulum we have a video showing a huge force by dropping the silver ball from a higher incline, which caused a faster acceleration. Next we used the same silver ball but dropped it from a lower incline which shows that it did not accelerate as great as the first one from a higher incline.

Third Law

For the cars experiment we used two blue cars and one black string that connected the rear ends of both cars. We turned on the cars and let them go in opposite directions. Because the force is the same for both cars we know that the acceleration and mass is also the same because they are identical cars. However, if one car had a lower or higher mass than the other they would still have the same force but different masses and accelerations. Therefore this proves Newtons third law that for every action there is an equal but opposite reaction.

For the marbles Alix and Beth had the same white clear marbles and flicked them towards each other. When the first marble hit it exerted a force on the second marble which caused the second marble to exert the same equal but opposite force on the first marble, which caused the marbles to split into different directions.

For the last pendulum experiment we lifted 4 silver balls and let them go to hit the fifth silver ball. This caused the three middle silver balls to switch back and forth between the first and fifth silver balls.This video demonstrates how for every action there is an equal but opposite reaction which causes the balls to keep switching back and forth.

Response to The Educational Value of Creative Disobedience

1- General impression of the article

2- How the article impacts you as a learner

3- How the article impacts you as a teacher and/or how this article impacts our work.

In the article, “The Educational Value of Creative Disobedience” by Andrea Kuszewski is about traditional methods of teaching vs. getting children to independently find, think, and notice the answers to a question or problem by themselves. I thought this article was amazing because it made me think about our educational system in a different way. Growing up I would always ask my dad questions about mother nature, construction, cooking, animals, people, and our native religion. Most of the time he would have answers and other times he would say ask your mom or grandma. As I started to ask questions I would find myself becoming more and  more curious and this only lead me to ask other questions. My family soon began to get tired of me asking so many questions and they started to call me question box. Today I look back on my childhood and I am proud of myself for asking questions because I never got full answers, so I would fill in whatever piece of information that I thought should be a part of the answer. I believe I have always been a creative thinker because I like to explore and find new things that interest me. My dad always has to remind me of all the creations I made as a child. My favorite creation to think about is when my dad said I grabbed a stapler, notebook paper, sat in the middle of the living room, and started making my own paper umbrella. He said he watched me with amazement because I was so little creating my own umbrella and it had a handle with a latch that opened up and closed exactly like an umbrella. I barely remember this day because I was only 4 years old at the time.

Alright, well enough reminiscing about my childhood and back to the importance of this article. I believe Kuszewski makes a good point about how traditional teaching methods only allow children to imitate, memorize, and have only one solution to a question or problem. Kuszewski explains that we should move from this traditional way of learning and encourage our children to ask questions and think about a problem or question before we give them a solution. We should also allow the children to be wrong and have mistakes because they learn from mistakes and this helps them understand why some answers are wrong and some fit a solution better. Also encouraging children to think and discuss helps their minds find more than one solution to a problem instead of everyone going by one solution and never being able to think outside the box. I like this way of getting children to think creatively and I will most likely follow this once I start teaching young children.

This article has a huge impact on me as a learner. In college I find myself following professors instructions and the best ways to get assignments done. I have no time to think for myself but follow these rubrics that are placed in front of me in order to receive a good grade. I only do the work that is asked of me and no extra work. This makes me wonder if I am learning anything at all because I take classes every semester and walk away with nothing useful but a good grade and credit. The only classes that have taught me valuable information is MATH 111, 112, Educational Psychology, and Sign Language. I believe the only reason why I remember and cherish these classes is because I was able to express my opinions and think deeper about topics and how to solve problems in many different ways. This article has opened up my mind and now I wish that teachers weren’t so stuck in their ways of giving rubrics, precise instructions, and their advice on how to earn an “easy A” in this course. I hear that same phrase every semester and it just shows that some students don’t even need to put in any extra effort because the teachers tell you exactly what you need to do to pass a certain course. They are basically holding our hands, telling us what and how to turn in assignments, and they wonder why they feel like they are reading the same papers over and over.

Next, this article impacts me as a teacher in the future because I want to help my students think and come up with creative answers and not make them follow the same specific guidelines for every assignment. For example I would give the class a lesson on multiplication and together we would come up with a definition for multiplication and what it means to multiply. I would then tell the class we can multiply by drawing, counting, memorizing, using base ten blocks or by using the lattice method. Then I would tell each child to show me or demonstrate how to multiply using all 5 ways to solve a multiplication problem. This allows the students to see how an answer can be developed using any of these techniques and that there is more than one way to get an answer. From this lesson each student should be able to walk away and feel comfortable multiplying.

I think this article impacts our class work in a positive way because you give us rubrics but they are tricky to where each student will have to come out with interesting answers. As a teacher you give us instructions but we know it’s not linear because science isn’t linear. As we get into groups we use what notes you have given us and make them meaningful to understand what we are trying to figure out as a group. As we talk in our groups we are learning more and understanding the material very well because we are able to explain it to one another and people outside of class. You also give us the ability to express ourselves through a blog and that is the best part of this class because you are able to read each students blog and learn how each student thinks. All in all this class is great and even though this is a new way for you to run your class it is working out pretty well. I do feel like I am learning and I am having fun learning so it helps get me excited to come to class every day.

Freefall Data for Earth, Pluto, and Jupiter By Alix F, Caitlin J, Beth R, Briana D.

For the first graph we had to input data for the distances and times of Earth, Pluto, and Jupiter. For Earth we had to figure out the average velocity, so we had to divide distance over time and that gave us the average velocity. Then we used the equation Vf=2Vave in order to find the final velocity for Earth. Then we used the equation A=(Vf-Vi)/(Ti-0) and it gave us our acceleration for all acceleration boxes.We followed these same steps for planets Pluto and Jupiter. The second graph above shows all the final velocities on the y-axis and on the x-axis it shows the time. Then we calculated the slopes for Earth, Pluto, and Jupiter. The slope for Earth on the graph is 9.8, Pluto is 0.61, and Jupiter is 26. This information will allow us to make further calculations if necessary in the future. Our group feels comfortable using excel, final velocity, average velocity, and acceleration calculations.

Thoughts About Class and Physics

First, I was sad that I missed out on Tuesdays class because I enjoy experiments with motion and using math equations. This reminds me of my physics class I took my senior year at West Mesa High School with Mrs. Marcus because we did a lot of physics experiments and a lot of math. I like how the math looks complicated but once you figure out where to plug in certain numbers it flows and makes sense. When I do math it helps unravel the experiment because I see how numbers change and how they all fit together to make sense of what each term means like final velocity, average velocity, and acceleration. I enjoy this class and I like all the people because everyone is nice. Also I enjoy the group work because we get to talk about whats going on, we learn from each others perspectives, and everyone has something different to say so I feel this helps us think more about the activities. I am also starting to like the blogging because I feel comfortable to say whatever is on my mind. This class is awesome and I am excited to do future experiments, blogging, and learn more material. Lastly, I love how the class is so use to working in groups that each student is able to help a student like myself get caught up. Even though I missed the actual toy cars in motion I still feel like I was there because my group gave me all the information and they told me what they did and how they got their numbers for the data. With all this information I could visualize the activity and I felt like I was their and this helped me understand how everything worked and the math came easy because I knew what everything was. It was a productive day on Thursday and I loved it because we used up all the class time to figure out calculations and make graphs. I always love the groups I'm in because I work with a lot of amazing intelligent people who I hope to see in the future.

Scientific Process #4

From chapter 1 The Nature of Science from Science for All Americans Online explains that science is developed by observing, thinking, experimenting, and validating. When conducting science it will never be linear and there is no fixed set of steps that needs to be followed. This lets us know that we can go from communicating with the group, make a hypothesis, form questions, investigate the known, carry out the study, observe, examine results, define the problem, communicate, reflect on the data, form more questions, carry out the study, observe more data, and examine the results. The process of science can take minutes, hours, months, and years because data is subject to change and because science demands evidence. It is important to gain lots of evidence to support your hypothesis of an experiment because it makes the experiment valid. When any kind of scientific experiment has valid evidence then it gives it value. If a scientific experiment has valid evidence then it could be useful for other scientists to use in their science experiments. Other scientist can use other valid evidence to examine, help them form new questions, validate their evidence, or it can change their original information, which would lead them to carry out another study. However, using other scientists valid evidence can be subjective because the information that is gathered to support a hypothesis is all based on how that certain person observes and thinks. For example, the many different facial products that are made to diminish the appearance of pores, dark spots, wrinkles, and scars were made by a certain person and tested on certain people. A person who made a certain facial product could be Asian and so they would probably test their product on Asian skin. The product could be successful and diminish any facial imperfection. Now if the product was sold in stores and a Native American read good reviews about that certain product they would want to buy it. The Native American would go home and try the product and a month later sees little or no results. This would show that the Asian scientist didn’t use different variables for skin types like Native, African, and Caucasian skin. From here we could guess that the Asian scientist feels that all skin is the same and can be treated with the same product. Also this information can be used by another scientist to help diminish facial imperfections on only Asians and Caucasians . Understand that validating science is important because it gives it value and can be used as a resource for other science experiments. The most important thing we need to remember when using someone else’s evidence is that it can be subjective and bias because of the way that scientist have certain beliefs and attitudes about what they do and how they do their work. Also scientist can control conditions deliberately and precisely to obtain their evidence. All this information about the process of science helps me to be open with future experiments because what I think is one answer could be another answer or just part of the answer. Also when conducting science I will always be looking for the correct answers but I need to accept some uncertainty because I won’t have all the answers to my questions. As I conduct future science experiments it will not always be one persons work because science is a complex social activity where work involves many individuals doing many different kinds of work.

Another important point I want to make about the process of science is how to show other people the data you have collected from an experiment. From the TED video of The Beauty of Data Visualization informs us about the different ways to be creative when showing/explaining data. It is important to have graphs, videos, data tables, pictures and anything that applies to the experiment. Having multiple graphs shows the different variables in an experiment. This is easy for your audience to look at the graphs and see a relationship or no relationship between variables. Also using storytelling to explain data is interesting because it captures your audience’s attention and they are willing to participate and learn about a certain science experiment. Also when showing your data it is good to recognize the different way people learn which is through the affective, psycho-motor, and cognitive domains. For people who learn through the affective domain it would be wise to use storytelling because they will be willing to listen/participate and they seem to relate it to other experiences. This helps them make learning memorable because it becomes personal. For people who learn through the psycho-motor domain it would be best to use resources they could touch or give them a chance to talk about the data and how they understand it. For people who learn through the cognitive domain it would be best to show them graphs and data tables because they like to evaluate the information and apply it to other information. Everyone learns through all domains but some people find that one domain works better at comprehending information than another. That is why it is always good to be creative with presentations and think about your audience and what kind of learners they are.

The Beauty of Data Visualization Discussion

By: Alix Fernando, Yvonne Portillo, Beth Reecer

We thought the video was interesting because of all the points he made about Data is the oil and he changed it to data is the new soil. Yvonne said an example of how back in the day if people wanted to cook up a recipe they couldn't because they wouldn't know all the ingredients. Nowadays a person can google a recipe and it gives them all the ingredients to make it. Data can also help you grow as a learner or a Creator. Data can also prove people wrong and change your opinions and perspectives. Also when people google information it can be bias. As learners this video shows us that information can be exaggerated or misinterpreted. Also we learned that people can manipulate data to their convenience. An example from the video would be the amount of soldiers in china and the U.S. In the video china has more soldiers but has less budget for their military and in the U.S they have less soldiers but more budget. Then in the video it shows that even though China has the highest amount of soldiers they also have less soldiers than North Korea. Also we learned that if the information is presented in a more creative way people are more likely to read it and remember the information. This relates back the Prezi's in class because each group made their presentations stand out with pictures, videos, different color texts, and music. Also we learned that when presenting data its would be useful to present it in a way where we reach out to all types of audiences and learners. In conclusion, it is important to present data in a way to prevent information overload because in the video he says our society has a problem with information overload. Also it is important to make data interesting by incorporating it into a story or something creative.

Ken Robinson individual post

Ken Robinson states good points about education blocking a childs creativity. I agree with Robinson when he states that creativity in education is as important as literacy and we need to treat them with the same status. This is true because being creative in class helps students enjoy a lesson or assignment and they seem to learn quicker than just reading and writing. Also I believe when a child has a chance to be creative they fell more confident to speak up and share ideas with their classmates. Also, in the Ken Robinson video I love when he says if your not prepared to be wrong then you will never come up with anything original. This made me think of a couple of teachers I had in elementary, middle, and high school. When our class was trying to figure out something together the teacher would tell us to yell out anything even if it we thought it was wrong or right. Then from there we would make the wrong information understandable and connect it with what was right. As a kid I thought class times like these were fun because everyone got to speak, share thoughts, make learning memorable, and no one was afraid of being wrong. Later on, when I become an educator I want to let my students know that being wrong is nothing to be embarrassed of because you can always make it right. Also Ken Robinson has made me rethink how I want to set my class environment for my students that I will be teaching in the future. Reason I am changing is because our society really does put math first and the arts last. This is not right because every subject is equal and we need to have an equal knowledge about everything. I aslo agree with Robinson that academic ability has come to dominate our view of intelligence. I believe this is true because as a society we would think the scientist, historian, or mathemetician is more intelligent than a veterinarian, ballerina, chef, or some type of artist. In my class I would incorporate music, drawing, painting, photography, building, and different computer programs with science, math, reading, and writing. I believe this would help each child flourish differently and learn in their own way about a lesson because each person is different and we have many learning styles. When I teach I am excited to break the old habit of a quiet traditional classroom with books and constant writing. Educators nowadays need to understand that if a child is moving around and being disruptive it does not mean they cannot learn or that they have ADHD. It means that the lesson should have some creativity and hands on work for the students to do besides sitting and listening for hours. Therefore I agree with Ken Robinson that we need to see creative capacities for the richness they are. I believe being creative with any of the arts in the classroom really does make learning memorable, helps students focus, and the students enjoy coming to class.

alix, Megan, and Julia second bean attempt with videos

this is the second attempt with less materials. We used tape marks to know how long a meter is. Then we made a tunnel with one index card and taped it to the measuring tape. We put the bean in the tunnel and watched it roll one meter.

Alix, Megan, and Julia

As a group we taped the meter string down with two tiny pieces of tape. Then we used the measuring tape as a support beam for the two taped index cards. then we dropped the bean and watched it slide 1 meter. This was only for the first attempt and it took several trys.The last attempt on the video is when the bean travels a perfect meter. Matt I have the video saved on my computer because the upload is giving me problems.

Hello Partner Yoenesha

Hey check out this video its so 80's :). Also check out this picture my neighbor made his son a tepee

First Blog Science Questions

• What is Science?
• What is the goal of science?
• How is Science conducted?
• What has been you experience learning about and doing science?  Describe a positive experience and why it was positive.  Describe a negative experience and why it was negative.

  I believe science is everything we see, hear, and do. Science is the study of the physical and natural world. Science has many branches such as geology, astronomy, physics, biology, chemistry, and more. The goal of science is to help us understand the world we live in. Science is conducted through research, experiments, and observations.
  My experience with learning and doing science has been fun. One positive experience I have had with science was connecting circuits to make different light bulbs work. This was a positive experience for me because I understood the activity and how the wires worked to make the bulbs light up. However, when I started attending high school science was a little difficult for me. In biology I had a negative experience when we had to dissect frogs and take out certain parts. It was negative for me because I love animals and I found it disturbing to poke at dead animals. My biology teacher gave me a bad grade because I refused to participate and a week later she brought in a dead cat sliced down the middle with all its insides showing. Thankfully that was the only negative experience I have had with science.