As seen in: https://www.thinkib.net/physics/page/17437/not-a-checklist
Clear evidence of personal engagement, justification of topic and evidence of personal input in design, implementation or presentation:
Focused research question, relevant background information with highly appropriate method all factors influencing reliability considered with full awareness for safety ethical and environmental issues.
Raw data is displayed in a table and processed correctly. Uncertainties are justified and processed. Results are correctly interpreted and the impact of uncertainties is fully understood.
A detailed and fully relevant conclusion justified with reference to accepted theory. Strengths and weaknesses are discussed, limitations of method understood and improvements discussed.
Clearly presented, well structured, coherent, focused, relevant with correct use of terminology and few errors.
1.Represent position, velocity, and acceleration using motion maps.
2.Perform calculations using various kinematics’ equations.
Additional Learning Objectives:
3.Combine vectors and kinematics
4.Solve kinematics problems using vector notation
5.Explain projectile motion and calculate relevant quantities
1.Represent velocity and acceleration using motion maps.
2.Represent velocity graphically using a distance/time graph.
3.Define speed (velocity) and give examples of units for speed.
4.Define acceleration and give examples of units for acceleration.
5.Distinguish between instantaneous speed and average speed.
6.Describe how to tell whether a velocity is changing (visually, graphically, motion mappily, mathematically).
7.Distinguish between speed and velocity.
8.Describe an objects motion based on a distance-time graph.
9.Describe an objects motion based on a velocity-time graph.
10.Realize the limitations of measurements and apply appropriate notation, units, and degree of precision to data/ calculations.
11.Perform calculations using various kinematics’ equations.
12.Define and describe positive and negative acceleration.
13.Describe how objects behave during free fall in terms of speed and distance.
14.Calculate the speeds and distances traveled of objects in free fall.
1-2 The student is able to recognize the relevant variables in a kinematics exercise
3-4 The student uses the correct equation of motion to solve for the unknown variable
5-6 The student is able to explain and justify the steps in the solution presented
7 The student is able to use motion graphs to solve kinematics problems
Dear students, please find some videos that can help you remember what we learned in class this week. Make sure you answer the 4th list of exercises of the post of the 13th and More Exercises 3 in this post, I will check it next class and tell on you if you don't do it. Also, more exercises below. Have fun.
Upcoming events: next class on the 20th, Monday, solving inclined plane exercises. Formative at the end of class.
Tuesday 21st, presentations start in historical order.
Thursday, 23rd, presentations continue.
Monday, 27th, summative about dynamics. Newton's laws, friction, inclined plane.
Some of the following videos are less rigorous than I am but should help you cut some corners. You should know how to answer the exercises as I do as well, with beautiful formality.
Today we learned the most common sources for errors and the difference between accuracy and precision. After that we moved on to the last section in the first unit, vectors.
Click the link below to watch a video from MIT professor Herman Gross on vector arithmetics. The other videos that can be found at that link, such as the dot and cross products are also very relevant.
On this day we learn about the intrinsic uncertainties of every measurement, how to communicate results, the sources of error, accuracy and precision, and how those propagate.
Homework: Solve exercises about uncertainty and error in chapter 1 of the oxford book.
Today students will join the google classroom, where the first lab report will be assigned. Due date is two weeks from now.
Goal Setting: make a copy of the file in the following link, complete the document and share it with me. SMART goal setting
After that, they will read and grade a lab report according to the IB rubric. Click the link to download the lab: Internal Resistance
Today we continued to work on our very first lab! Students learned about the formula for the position of an object in uniformly accelerated motion. Then proceeded to try to determine the acceleration of free fall by filming balls free fallin from different heights. The class went over two ways of calculating the Acceleration of free fall give the height and time of travel.
We are off to a great start with students focussed on giving their best this year to learn about physics and better themselves.
Find the introduction presentation here.
Remember to download the files in the resources section of the DP Physics class.