At the very beginning of the motion unit. I honestly had no clue about motion at all. that was pretty much it. I knew motion involve moving and force, but that was about it. Now I know a lot though.
Wednesday, May 20, 2015
Sunday, May 17, 2015
Now that you have completed the unit, what do you know about motion compared to when you started? How do things move?
Before I had learned about motion I thought that when something was moving, another object must be touching it or pushing it. Later on I had realized that in order for an an object to be in motion the reference point or a stationary object has to be changing distance from it. Objects that are moving, the reference point of that object must be changing. A reference point should be stationary in order to see if an object is in motion. However, suppose you're on a train, you are moving reference to the ground, not the train. So, therefore, you are not in motion.
Wednesday, May 13, 2015
Motion
Before I started learning about motion I knew very little about motion. For example I had a very general and not scientific definition of motion which was an object is in motion if it moves from one point to another. I also had know idea of definitions such as instantaneous speed or average speed. I also did not know much about the tectonic plates. I did not know the names of the plates that are found on our Earth. I had know idea about acceleration or how to calculate acceleration of a object. After learning about motion I knew that motion is when an object moves in any way from its reference point. I knew that a reference point was a object that was used as a reference to measure the motion of a object. I learned what instantaneous speed was (the speed of an object at a specific point of time.) what average speed was (the speed of a object throughout its whole journey.) I learned all bout the tectonic plates. I found out that acceleration is the change of an objects speed or direction, and I found out how to calculate acceleration (you subtract the initial speed of a object by its final speed then divided it by the time at which the acceleration took place.) I think overall I know way more about motion than I did before learning about it.
- Ibrahim Ahmed
Tuesday, May 12, 2015
My Knowledge on Motion
At the beginning of the unit I had next to no prior knowledge on the motion unit overall. But as I began the unit the little knowledge I had about this subject began to come back to me, I began to remember how to find the average speed, what is speed.
But I also learned about topics like a reference point that you use to see if motion is happening or not. From the reference point came out the relative motion, which explains why somethings seem to be in motion but can also not be in motion, its all relative to what you use as a reference point. It also told me about the International system of Units that uses meters to measure distance so that all measurements stay equal when scientist trade notes and conclusions.From motion comes out acceleration, I learned how to figure out how fast the object accelerates, final speed minus the initial speed divided by the time, will get the acceleration. Acceleration is not only increasing speed but is also decreasing speed and changing direction. All three of these changes in speed are was of an object accelerating. Something moves because of acceleration and how it compares to the reference point, even the tiniest movement is motion. That is most of what I had learned in the Motion unit, it helped me get a grasped on what is to come in science.
But I also learned about topics like a reference point that you use to see if motion is happening or not. From the reference point came out the relative motion, which explains why somethings seem to be in motion but can also not be in motion, its all relative to what you use as a reference point. It also told me about the International system of Units that uses meters to measure distance so that all measurements stay equal when scientist trade notes and conclusions.From motion comes out acceleration, I learned how to figure out how fast the object accelerates, final speed minus the initial speed divided by the time, will get the acceleration. Acceleration is not only increasing speed but is also decreasing speed and changing direction. All three of these changes in speed are was of an object accelerating. Something moves because of acceleration and how it compares to the reference point, even the tiniest movement is motion. That is most of what I had learned in the Motion unit, it helped me get a grasped on what is to come in science.
Sunday, May 10, 2015
When you think of it, when you think to reflect about motion your brain's cells are moving. trolololo
When we first started the lesson, to be honest, I faced many difficulties as the teacher started explaining the first section of the chapter and I was kind of lost since I had never studied about motion and how objects move before. As a matter a fact, just before that, as our teacher Miss. Ahmad started explaining, she told us to write down what exactly is motion. I remember putting down:" Motion is the movement of an object. It is its traveling speed in the air". And now as I reread it, I realize how much I have learned form this chapter and that now, I am able to expand and add on to this simple basic answer that served as a foundation. I learned a lot of things about this subject not only through the intense explanation of Miss. Ahmad but also through many assessments, questions activities and a mind map. The mind map especially assisted my learning as it was a new but effective tool that helped me visually analyze the information and store it adequately and swiftly in my brain.
Anyways, if I had to think of motion as center branch, it would definitely be attached to four other sub branches that encompass everything that we learned in the 3 sections of this chapter. Those branches would be measured in, compared to, described by, and happens when. The first branch would explain how motion is measured in the International System of Units (SI) that is used by scientists all over the world. It comes from the French phrase "Systeme Internationale" and this system describes all quantities such as length, mass, time… The second branch would clarify how to determine if an object is in motion or not, and how this object has to change position (distance or direction) compared to a reference point that is used for comparison. This reference point can either be stationary (tree…) or moving (moving car…). However it is always better to have a stationary reference point rather than a moving one because a moving reference point might trick you into thinking that you are moving when actually you aren't. And depending on this reference point the object is moving or not. For example if there is a book on table and the reference point is the table the book isn't moving but if the reference point is the sun it is moving because Earth is moving around the sun and the distance between them differs every second. The third branch would explain how motion is described by acceleration. And in science, acceleration (the rate at which velocity changes) is an increase in speed, decrease in speed or change in direction. Acceleration can also be found by dividing the final speed minus the initial speed over time where time is always squared in the answer and it can be graphed in a speed versus time or distance versus time graph. And finally the last branch explains when motion occurs, that is when there is a change in velocity. Velocity is composed of direction which is crucial in some cases (airplanes…) and also speed which is distance over time. And in science, there are two kinds of speed: instantaneous which is measured by a speed graph and average speed which is found by dividing the total distance by the total time. And speed can also be graphed in a distance versus time graph where the slope of this graph represents the rate of change in speed and can be found by calculating the rise over the run. If the slope is a straight line, there is a constant speed and depending on its steepness, we can know if the object is moving slower or faster. And finally we also learned how the Earth's plates move very slowly causing the Earth's landmasses to change over time 9it has changed a lot actually from 250 million years ago). This happens due to the rising of hot materials heating up from the Earth's core's extremely boiling temperature. This rise of hot material pushes the cooler materials at the top layer aside which eventually sink down; this rising and seeking of material create small vibrations within the Earth's crust which then leads to moving plates. And to add on to this as well as link this acquired knowledge to a modern situation (Nepali earthquake), we also learned how this is also linked to earthquakes and how when two plates move in opposite directions, pressure builds up until a fault happen and this huge energy accumulated over a long time transforms into the form of vibrations and shakes which create a devastating earthquake
To conclude I want to say that in general, I have learned a lot in this lesson considering the fact that I knew nothing at the start and I have also gained a lot of knowledge in physics on motion. I would also like to thank Miss. Ahmad for her hard work and for all the time she used to make sure that we all understand every bit of this easy but long lesson that required determination and perseverance and I am very excited to learn about force that ties in with motion.
Joseph Moussa
(37 days left)
Motion Reflection
At the beginning of this unit on motion, I knew very little information and could not comprehend and clearly understand what motion really is. Then we did projects and analysis's along with reading text from the books which helped me clarify any queries I had about motion.
To me, motion can only be occurring if you have a reference point that is either stationary or moving. A reference point is an object or place that can be used to determine whether an object's distance from another is changing. You would be able to determine if an object is in motion by picking a reference point that is stationary or moving, like the sun. For example, compare a pen on your desk in motion to your bed. This means that the pen is not in motion as the pen itself, is stationary and so is the bed. However, if you would refer the pen to the sun, the pen would be in motion as the sun in rotating and the distance between the pen and sun varies.
While studying about motion, we also learned about speed, velocity, and acceleration. Speed calculates the distance traveled per unit of time while the speed given in direction is the velocity. Acceleration is related to velocity because it is the rate at which velocity changes. An object can accelerate in three different ways: changing direction, increasing speed and decreasing speed. To take in all of this information with not too many doubts and questions, we had created Mind Maps which were easy to study from as they were color codes which allowed me to group information that related to each other, so it would be easier when it came to the chapter test.
-Sayuri Moodley
Motion
Before we started the unit about motion and, barely knew what it was and how I would be able to describe what motion is. But now I feel very confident about it, and I believe I can thoroughly explain what motion is and when an object is in motion.
I learned that an object is in motion when its distance from another object is changing. To determine whether or not an object is in motion, you usually use a reference point. A reference point is a place or object used for comparison to determine if something is in motion. Stationary objects make good reference points. If a reference point is not stationary then it would be very hard to determine if an object is in motion. There is also such thing as relative motion and that is when you can state that whether or not an object is moving depends on the reference point that you choose. I also learned that scientists all over the world use the same measuring system, that way communication is much more easier and clearer. The system of measurement is called the International System of Units or, in french Systeme International (SI). SI units are used to describe the distance an object moves. The (SI) unit of length is the meter. But that's not it, I learned all about speed, how to calculate it, same goes to acceleration. Graphing motion is also something that I now know how to do. In this unit we were also taught about Earth's plates, the Theory of Plate Tectonics, and plates movement and why they move.
-Lina Abdelgabar
What do I know about Motion ?
When we first started this unit, I had a little piece of information about motion, But when the chapter was over, I had gained much more information than I did before. All what I knew before we started discussing in class what is motion, I thought that motion is the action of movement. but I turned to be wrong.
Now, after we did an experiment and a mind map about motion, I can go into further details about motion. Now, I can briefly explain what's motion and what happens when it occurs. An object is in motion if Its distance is changing between it and the reference point, and for more details, A reference point is a place or an object that determines if something is moving or not. You can be moving and not moving in the same time. If you're sitting on a chair, and your reference point is the sun, then you are moving with the speed of 30km/s because that is how fast the whole plant rotates around the sun. But if your reference point is your desk or the floor, you aren't moving because the distance between you and the floor or the desk is not changing. To measure motion scientists all around the world use the International System of Units or in French Systeme International. If you have the distance that was covered and the time then you can calculate the speed of an object and the formula of speed is distance / time. If you have the direction in which the object is moving in, then you can know the velocity of an object.
In this chapter, we also had established the concept of the theory of Plate Tectonics. We were taught how to know if a content is moving or not with a reference to the Equator, an imaginary line that divides Earth into two equal halves the northern and the southern hemisphere. The theory states that the Lithosphere ,outermost layer of the Earth, is moving due to the materials that are being heated near the core and raised to the top of the Lithosphere, and pushes the land to the side which causes it's movement. A content can be accelerating which means it's either increasing the speed, decreaseing the speed or changing the direction of it's motion.
Abdelrahman Ghazaly
Motion - What do I know compared to what I knew before? How do things move?
Motion
Now that you have completed the unit, what do you know about motion compared to when you started? How do things move?
Since we have finished learning about motion, I can say that I have learned a lot more than I knew before. Before starting this unit, I knew motion was when something waas moving, and when something had moved from one place to another or the distance had changed in better words. But upon learning about Motion, I have learned that motion is when an object has moved from one point to another, so the distance had changed. I also now know about how you can tell if an object is in motion by keeping a reference point. A reference point is usually an object that is not in motion, and while you are in motion, you look at the reference point to see if you are actually in motion or not. I also know a lot more about how things move, how you can calculate speed, acceleration, etc.
Things move when the distance of the object changes from a reference point, just as I have explained in the paragraph before. In order to tell if something is moving you can see from the outside if its moving, but if you were to be inside a car for example, you would look for a reference point and then see if you were in motion or not.
Maryam Babar
Reflection on Relative Motion
Now that I have completed the chapter of motion, I have a much better understanding of it. Objects are in motion when its distance from a reference point is changing. Before learning this unit, I always though that things are in motion when they are moving, but now I have learned a more precise definition that properly explains it. Motion is measured by an International System of Units (SI) that is used by scientists globally. These units are used to determine if an object is in motion, by measuring the distance from the object to a reference point. A reference point is a place or object used for comparison to determine of an object is in motion. The speed of an object can be calculated by measuring the distance traveled by the object divided by the time taken. Speed in a given direction, is velocity. Velocity can be useful because it tells the specific direction that an object is heading to. A form of motion is acceleration. Acceleration can occur in 3 ways: increase in speed, decrease in speed, or change in direction. Acceleration can be calculated by subtracting the initial velocity from an object from the final velocity and dividing that by the time taken. General motion can be graphed in a distance-versus-time graph, and acceleration can be graphed in a speed-versus-time graph. One cool fact I learned is that Earth's landmasses are constantly in motion. The Theory of Tectonic Plates explains this. Over millions of years, Earth's continents have moved to form what we know as the world today. I feel that I have certainly obtained a lot of knowledge from this chapter, and this has provided clarity in my understanding of basic physics.
- Dylan Dev
Motion Reflection
Motion Reflection
Before we started motion I didn't know anything about it. However, now that I have finished the chapter about motion and learned about everything in the chapter I know a lot more about motion than I did before. I learned many things. The first thing is that an object is in motion when its distance from another object is changing. I also learned different ways to calculate motion. For example average speed, instantaneous speed, velocity, acceleration, and much more. I learned that the motion of an object is determined by its reference point. For example a moving car is in motion in reference to a tree. I also learned about plate tectonics and how they are constantly in motion in reference to the equator. I also learned that in order to predict how much a plate will move in a certain amount of time you must multiply the plate's speed by its time. In order to help us learn about all of this material we used mind maps and took notes. The mind map really helped me organise my thoughts and see what I had learned, clearly. At the start of this chapter I thought that I wouldn't enjoy it as there was no live science involved. The outcome was the exact opposite. Overall, I really enjoyed learning about this chapter and I now understand what motion is.
Nina Carlos
What I Know About Motion
When we first began this unit on motion, I knew very little about it. All I had known, was that motion is when movement occurs, and is caused by forces. I wasn't able to go into detail about this then, but now I can.
Now, I am able to thoroughly explain what motion is, and what happens when it occurs. Motion is movement that occurs when an object's distance from another object, changes. In other words, its position changes, relative to a reference point. A reference point is another object that can be used for comparison, to determine whether or not something is in motion. For example, a passenger sitting inside a moving train, would not be in motion relative to the train. However, relative to a stationary object such as a tree outside, the passenger would be in motion.
To measure the change in distance from another object, the basic unit - meter - is used. When something is in motion, you can calculate it's speed, or the distance an object travels over a certain period of time. Motion can be very useful when it is given in the form of velocity. Velocity is speed in a given direction.
Extremely slow motion occurs in Earth's outermost layer called the Lithosphere. It is divided up into major pieces called plates. Some of these plates include Earth's landmasses, or continents, and overtime these plates have shifted, due to a theory known as the Theory of Plate Tectonics. Underneath Earth's plates occurs a process similar to convection. This process allows heated material deep within the Earth, to rise and push aside cooler material at the top. Scientists believe that this process causes the Earth's plates to shift, and therefore explains how Earth's landmasses have changed position over time. Most plates shift several centimeters each year, while others move only a few millimeters.
Acceleration is another kind of motion. It is when an increase in speed, decrease in speed, or change in direction occurs. So really, it is that rates at which velocity changes.
Now that I know so much more about motion, I'm excited to learn more about the forces that affect motion.
- Sana Mehmood
Since we began to learn about the topic of Motion, I knew a fair amount about the topic itself. For one, I had already known that speed would be distance over time, since speed is really just how much distance is covered in a set amount of time, whether it's how many metres a body covers in one second, or if it is how many kilometres a body travels in one hour. I also knew that velocity was just speed with a given direction, and that acceleration was just the different rate of change of speed. Acceleration is the rate of change of speed in a moving body. It is how fast a body changes its speed. However, I did not know that the change of direction, where another force acts upon a moving body, is a form of acceleration. The SI unit of speed is m/s, as the SI unit of distance is metres(m) and the SI unit of time is seconds(s). The SI unit of acceleration is m/s2
Inside this topic of motion, we were taught about reference points. A reference point is frame that can be in stasis or motion, in which we can refer motion of a body to. A reference frame is better when it is static, as we can have reliable source to measure the motion of a body. We measure the motion of the body, if it has changed distance or perspective in regards to the reference point.
To describe motion, we simply just describe the body at 2 different time frames. If the body has altered in any form in between the 2 time frames, whether in location or appearance, then it has moved, therefore motion has taken place. Motion abides by the classical laws of mechanics, from which derived from the 3 laws of motion, proposed and created by Sir Isaac Newton. Motion however, is not the same on the sub-atomic scale, and must abide by the laws of Quantum Mechanics.
-Jacob Reyes
Motion Reflection
"Now that you have completed the unit, what do you know about motion compared to when you started? How do things move?"
After the motion unit, I have gained more knowledge in physics on motion. For example, when we started, I wasn't able to comprehensively reflect on the background information of motion, and how objects moves. Now I understand how to determine if an object is in motion: using a reference point, which can be any object, to compare with the other object. Now to put the meaning of motion into words: an object is in motion if it's distance from another object, preferably a stationary reference point, is changing. Determining whether an object is in motion or not can differ depending on the reference point, or what the object is relative to. For example, a book sitting on a table with reference to the table, or relative to the table, is not in motion because the distance between the two objects is not changing. If you look at the object with a different perspective and use a different reference point, for instance the sun, you would say that the book is in motion because, the book that is located on Earth, is rotating around the sun, changing position in reference to the sun. Along with studying motion, the unit built up and tied in with speed, velocity, and acceleration, which are used to describe objects in motion. Speed calculate the distance traveled per unit of time, and speed in a given direction is velocity. Acceleration is the rate at which velocity changes, and an object can accelerate in the following ways: increasing speed, decreasing speed, and changing direction. To organize all this information and shows the connections between each of the terms, we created Mind Maps. My mind map and all its colors and shapes helped me get my thoughts straight and also were a good studying tool. In conclusion, my knowledge on motion has increased majorly and now, at the end of the unit, I clearly understand how to explain motion and how to measure it.
Sarah Amer
After the motion unit, I have gained more knowledge in physics on motion. For example, when we started, I wasn't able to comprehensively reflect on the background information of motion, and how objects moves. Now I understand how to determine if an object is in motion: using a reference point, which can be any object, to compare with the other object. Now to put the meaning of motion into words: an object is in motion if it's distance from another object, preferably a stationary reference point, is changing. Determining whether an object is in motion or not can differ depending on the reference point, or what the object is relative to. For example, a book sitting on a table with reference to the table, or relative to the table, is not in motion because the distance between the two objects is not changing. If you look at the object with a different perspective and use a different reference point, for instance the sun, you would say that the book is in motion because, the book that is located on Earth, is rotating around the sun, changing position in reference to the sun. Along with studying motion, the unit built up and tied in with speed, velocity, and acceleration, which are used to describe objects in motion. Speed calculate the distance traveled per unit of time, and speed in a given direction is velocity. Acceleration is the rate at which velocity changes, and an object can accelerate in the following ways: increasing speed, decreasing speed, and changing direction. To organize all this information and shows the connections between each of the terms, we created Mind Maps. My mind map and all its colors and shapes helped me get my thoughts straight and also were a good studying tool. In conclusion, my knowledge on motion has increased majorly and now, at the end of the unit, I clearly understand how to explain motion and how to measure it.
Sarah Amer
Motion Reflection
In the beginning of the unit I knew nothing about motion. Then as we started to read about the lesson, conduct activities and create mindmaps it made me learn a lot faster than normal. When I think of motion I think of speed (distance divided by time), velocity which is the speed and direction then acceleration, the rate of which velocity changes. Then to know if this object is in motion I think of a reference point which is usually stationary like a table or a tree. If the object moved from the reference point then it is in motion. I learned how to graph motion and acceleration which is very beneficial. For speed my class learned how to find the average speed and we also learned about instantaneous speed which means the rate of an object when it is moving at a given time; like a cyclist. Overall I have learned a lot about motion considering I knew nothing at the start.
Lamees Alawami
Motion
When we first started Quarter 4, Mrs. Ahmed gave us a series of questions asking about our knowledge about force and motion. From my knowledge from last year's curriculum about motion I only remember was that motion is that it is when a force is applied to an object resulting it to have action or physical movement. I also only remember the Three Laws of Motion by Isaac Newton.
Valerie
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