Unit 2 Blog Reflection

            The first thing we learned about in this unit was Newton’s Second Law of motion, which states that acceleration is inversely proportional to mass and directly proportional to force. Newton’s 2^nd law written as an equation is a=(fnet/mass). We then conducted a lab in which we tested Newton’s 2^nd law by using a rolling cart and a pulley system. After the lab, we then learned about skydiving and falling through the air. I learned that when falling with air resistance, F-air (force of air) is directly proportional to speed and surface area. This means that if the speed or surface increases, then the f-air will also increase. After falling for a certain amount of time, the skydiver will reach a point called terminal velocity (constant velocity) where they remain at a constant velocity. Next, we learned about free fall, which is falling without air resistance. The force of gravity is the only force affecting anything in free fall, where gravity is a constant 9.8m/s^2. In this case the equation a=(f-net)/(mass) changes to a=g because the force of gravity on mass is also known as weight. The equation to change weight to mass, and vice versa, is w=mg. To find how high, d=1/2gt^2 is the right equation, while how fast would be v=gt. Similar to free fall, we learned about throwing things straight up as well. The acceleration acting on an object thrown up is always 10m/s^2, and that drawing a picture of the path of the object is very helpful. The last thing we learned about was falling and throwing things up at an angle. The most important thing we learned was that the only thing that determines the time in the air is the vertical height. An object falling at an angle will take a parabolic path to the ground, and the horizontal force is always constant. When an object is thrown at an angle at the top of it’s path, it still has a horizontal force acting upon it.

            The main thing that I have found difficult in this unit is remembering all of the different equations and what they correspond to. Especially since there are two equations when solving for the vertical and another for the horizontal. I overcame these difficulties by constant review and making sure I was correct each time I solved a problem using one of the equations. I also found that some of the equations are self explanatory, however some of them just require memorization to what they correspond to.

            I think I’ve had a solid effort towards class, homework, activities, blog posts, etc. I feel that this really helps in learning and understanding the material, because the effort I put in helps in understanding the notes and other things during class. My persistence is also a key factor in this class, because not giving up is important when learning new material, even if it’s hard. Having self-confidence in yourself is also important because if you’re not confident than you might not ever ask a question that you don’t understand, which will most likely lead to getting it wrong on the test. Lastly, collaborating with your group members is important because you need to split the work up evenly, and they can help you if you need it.

            My goal for next unit is to do even better on both open and closed note quizzes, because they are relatively easy points if you study/go over your notes every night. I plan to review my notes more, and also pay more attention when watching videos and taking notes.

            One connection I can make is throwing things at an angle, because I often will throw a football, Frisbee, or any other type of ball. It is interesting to think about the acceleration and velocity the ball has when I throw it and when it’s in the air.