Uncertainty in Measurements

As promised, I am going to continue with my accuracy and precision lesson. If you missed my last post, you can read about it here.  

I usually will introduce the concept of uncertainty in measurements and significant figures with another small activity / discussion. In the past I created two rulers on large chart paper (similar to the Significant Figures Task Cards illustration shown below). 

Disregard the questions in the graphic. I only use or draw pictures of the rulers. I would not ask anything about sig. figs. at this point since I have not introduced that concept yet.

One ruler at a time, I would allow time for groups to discuss the precision of the instrument and come up with a measurement to share out with the class. I would write on the board the measurement provided by each group. Then I would do the same of the second ruler.  

  I would engage the class in a friendly debate about whether they believed their measurement was right. This is where students would verbally explain to me that the first number in the measurement had to be a one (1) because the object falls in between the one and the two.  I would then ask the groups how they came up with the second number as I noticed some variability between their measurements. Inevitability I would have one to a few students tell me that they guessed the second number.  At this point I would nod my head or say that was an interesting tactic before moving on to the next ruler.

Again, I would give groups time to discuss and provide me with their measurements as before. Students would confidently explain that the first number in the measurement (above) was a one because the object fell between a 1 and a 2.  Then the second number had to be 1.4 because the measurement fell in between 1.4 in. and 1.5 in. Finally, I would hear students debating about the final number. This is where I would talk about significant figures, the known digits plus the one estimated digit, in a reported measurement. 

At this point, I would move to a lab activity that involved several stations containing different instruments.  

Each station had 4 pieces of the same equipment, however, each piece was set at a different measurement.  I originally used food coloring to make it easier to see, however, it became a method to assign each student, in a group of 4, a particular color.  

For example: Student 1 = yellow, Student 2 = red,  Student 3 = blue, and Student 4 = green. Students would only measure the apparatus that contained their food coloring dye.

If there were certain instruments that did not measure liquids, like a triple beam balance, I would use color paper or Post-It notes (I know the Post-It notes in the pictures don't match here because I had run out of the color I needed and was too lazy/cheap to run to the store to get more). ;)

Students would then rotate from station to station measuring the instrument based on their assigned food coloring / Post-It note color. Once all the students were finished, I had them find three or four other students that had the same color assignment as they had in order to gather and compare their measurements. There were times where groups were larger than 4 but I only recommend that if you know your students can work quietly in large groups (this varied from year to year and from class to class).

I represented the true value for the lab activity. At the end of the activity were some reflection questions for the students to answer.  This activity allowed for students to learn to collect data and make measurements with accuracy and precision; as well as begin to learn how to express quantities using appropriate significant figures [Texas standards].

Another reason why I do this activity is because I want all students to have the opportunity to practice using and reading the lab equipment. Therefore, I would also pull this equipment out a few days later and have the students complete a lab practical. It makes it more difficult for them to cheat, especially if I utilize more than four pieces of the same equipment type (e.g. 6-8 graduated cylinders or triple beam balances, etc.). I will admit that the first time I did this it was a lot of prep (mainly because I was just grabbing equipment and didn't have a clear vision for setting it up). It now only takes me roughly 30 minutes to set up, with the burettes and ring stands taking the most time. Clean up is relatively simple as well. 

Sometimes I would leave all the equipment out and write my measurement on the bottom of each Post-It note  (for each instrument).  If students finished early or wanted extra practice prior to the practical, they could go to the lab and practice by checking their measurements against mine (they would lift the Post-It note up to reveal the answers). Students did not receive a grade for this; however, most students would practice because they wanted to do well on the practical. 

Okay...that was a lot and I'm hoping I didn't leave anything out. I think this is a great lab activity to do at the beginning of the year because you can easily identify students that come with/without measuring skills.  Some may be proficient at using all the equipment, some may be proficient using a few, and others may need help using all the pieces.  

I also think this is something you can continually pull out as a warm-up. Yes, I would sometimes use this as a warm-up to at least have students practice until I felt that 90-100% of my students could measure with accuracy and precision - reading to the correct number of significant figures.

As always, I would love to hear if you have any strategies pertaining to these topics that work in your class. 

FYI - the sheet is available FREE as a half-sheet  (1 page for 2 students) here.

Thanks for stopping by! 

Accuracy & Precision with Wacky Rulers

The concept of measurement in science, especially in chemistry or physics, is an important skill students need to acquire early on in the school year.  I am going to share a simple engagement strategy in regard to accuracy and precision that I have used in the past with my students. This is also a great activity to implement the first week of school if students are not able to conduct labs without a signed safety contract. 

My former mentor and instructional coach used to let me borrow a set of non-traditional rulers - which I nicknamed bumble bee rulers because they had an alternating yellow and black box pattern on both sides of the ruler (I will refer to them as wacky rulers from here on). 

Unfortunately, my coach could not remember where she got the rulers from and retired from the profession; however, I created my own version of the ruler and call them wacky rulers.

I would give each student a ruler and a picture as soon as they entered the class. My directions were simple - measure the object and write your answer on a Post-It note. Some students would look at me weird and some would ask me what units they were supposed to use. Others would try to figure out which end of the ruler to use.

I created this version just to mess with the students but it does come in handy when comparing different measuring instruments and talking about accuracy and precision. 

Each student would then place their Post-It note on chart paper or the board (or you can have them write directly on the chart paper or board). I would get a variety of measurements (e.g. 4 squares, 3 blue squares and 2 black squares, 5 boxes, 5.1 boxes, etc.) 

Next, I would have the students measure the object again with a metric ruler and create another poster with the metric ruler measurements. 

At this point, I would have two class sets of measurements - one from the wacky ruler and another from the metric ruler. I would give students an opportunity to discuss in pairs, or a group of 4, which ruler they believed was the best instrument for measuring.  I would also give students time to discuss their thoughts about the varying measurements with the wacky ruler; as well as how the measurements differed between the two rulers.  

This is also a great opportunity to explain that a measurement consists of a number and a unit. Additionally, it also is a great time to introduce and discuss accuracy and precision by utilizing the class measurements. You could have students copy the actual measurements in their interactive notebooks and write a brief reflection summarizing the activity. I really like using the wacky ruler data when speaking about the precision of our measurements since, from my experience, the data usually is all over the place. ;)  For the sake of explaining accuracy, I will tell students that my measurement is the true/accepted value. My students usually understand the difference between accuracy and precision from this point forward.  

I should note that this is usually a 10-15 minute activity / discussion at the start of class (warm-up and engagement).  I also incorporate significant figures, however, I will be writing another post on that later as I incorporate an accuracy, precision, and sig fig lab activity in the same lesson (and sometimes use it as a lab practical).  You may have also seen my collaborative posters floating around Pinterest or other sites. That is another collaborative activity I integrate into this particular measurement unit. 

If you want a copy of the wacky rulers, you may download it for FREE here. I have included the image of the shark seen in this post and a slightly editable 10 slide PowerPoint file.

Please share if you have any ideas similar or different from this; or if you try this and your experience with it. As always, thanks for reading! :)

Super Secondary Science Giveaway

I have teamed up with a few of my secondary science colleagues to participate in a Super Secondary Science Giveaway.

Who, what, where, and when? 
Technically anyone may participate, however, the resources found on our pages are geared for secondary science.  You may participate by following the directions on the Rafflecopter (scroll down). Once you're down with that, then scroll down some more to visit the participating secondary blog pages. It's that simple! Each of us have different prizes.

The winner of my giveaway will have the opportunity to choose between:
(1) Chemistry for Interactive Notebooks

There are two versions of this product - one for high school and one for middle school, however, you may only choose one version. Check out the video for a small preview [FYI: there is music].

        

 (2) Task Cards 7-in-1 Bundle
This product covers the following topics: atomic structure, ionic bonding, covalent bonding, matter, the periodic table, significant figures, and scientific notation.   

(3) Cells & Viruses: Differentiated Activities for the Biology / Life Science Classroom
This bundle comes with 8 activities: task cards, tarsia puzzles, mix-n'-match, I have...Who has..., literacy activities, vocabulary jigsaw, and graphic organizers for the interactive notebook/lapbook.

 

Once you're done with the rafflecopter - don't leave! Make sure to scroll to down to visit the other secondary science seller pages to participate in more giveaways! Have fun and best of luck!

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Addie Williams

Bond with James: Super Secondary Science Giveaway

MsRazz ChemClass

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Lab Report Activity Bundle Giveaway

Mrs. Brosseau's Binder

Kesler Science

Biology Roots

Science Island

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Interactive Notebooks - left or right?!

I have been receiving questions concerning interactive notebooks at the secondary level - in email and from colleagues. Therefore, I thought I would take some time to talk about interactive notebooks.  

Interactive note-booking may seem daunting to those who have never tried them or have only seen examples in workshops - color, paper, glue, tape, glue AND tape, ribbons - the list goes on. I was one of those individuals that couldn't wrap my head around the idea of INBs. I originally felt that INBs were for elementary students. I was responsible for preparing my students for college life and in my mind, INBs were not going to accomplish that (I was a hardcore binder guy at the beginning of my career). To make a long story short, at some point I switched to spiral notebooks and then transitioned to composition notebooks. 

What does this have to do with anything? Well, I've been asked which is better - binders, spirals, or comp books.

At the end of the day it all boils down to personal preference. Whatever works for you and your students! Or...whatever you were "voluntold" to use by the district or campus. ;)   

The key is to have a plan, be structured and organized, and don't give up. Additionally, keep in mind that your main focus of using an interactive notebook should be to use it as a mechanism to drive student learning and understanding. Designing, coloring, cutting, gluing, pasting, and/or taping is great; but you may need to reevaluate the use of the INB if it is interfering with instructional time and/or detracting from student learning.

If you decide you want to incorporate INBs in your classroom, you may want to sit down and ask yourself some questions. For example:

• Am I going to use binders, spirals, or composition books?
• Is the school and/or district able to fund some or all of the INBs for my students? Or should I go out and buy them and have students pay me back [legal and/or district policy may require you to set up a school activity fund to do this]?
• What materials will I need to implement INBs (e.g. glue, tape, markers, etc.)?
• How will I setup and structure the INBs, especially if I have multiple preps?
• Do I need to keep a teacher INB? If so, do I keep a single INB or develop one per class? 
• How will I grade them?
• What is that whole left-side versus right-side mumbo jumbo I keep hearing about?
• Do I allow students to keep them in class; and if so, where will I store them? 
• What if a student loses his/her INB?

Okay...I hope I didn't run you off, however, those are a few questions that you should put some thought into before you jump head first into INBs.  For now, I'm going to focus on the left-side / right-side component of INBs because this was something that was a district-wide initiative in my area a few years ago. Furthermore, the left-side / right-side idea highlights the interactive component of an interactive notebook - INBs are simply not all about cutting, gluing, plain notes, etc. 
Disclaimer: Some teachers do what I'm about to discuss the opposite way. That's okay. Just be consistent in your classroom, school, and/or district so that it works for you and your students. :)

The left side (page) of the INB is dedicated for students to demonstrate their understanding of the information from the right side (page).  You may see or hear the left side referred to as "output" because this is the side where students showcase their creativity - either through choice or guided by the teacher - to express their learning.  Examples include but are not limited to quick writes, graphic organizers, cartoons or drawings, mnemonics, and reflections. Really, it's any thing that the student creates to show that he/she understands the information discussed/taught on the right side.  

The right side is reserved for instructional content the teacher is providing (you may hear the right side referred to as "input").  Examples include but are not limited to notes, questions and answers, problems, vocabulary, and laboratory procedures. 

Over the years I have learned to condense my notes and be more concise with the curriculum I am responsible for teaching my students. 
Well, do you use multiple INB pages per instructional day? No.  Everything for a particular day receives 1 right page and 1 left page.Use graphic organizers, half sheets to create a layering effect [see photos below] or other methods in an effort to utilize a single page each. 

The above and following pictures show how I fit multiple half-sheets, graphic organizers, and/or other activities on one page of my INB.

Similar to the right side, I may have the students use the left-side multiple times; however, students will learn your space saving methods, as well as pick up new tricks, if you consistently use INBs throughout the year. If you want to control what goes on the left-side, yet offer flexibility, then design a choice sheet that lists a few ideas that students can select from [refer to left-side ideas listed above for an idea]. 

You can also check out a small preview of what I discussed in the short video below (0:35 seconds). I will also be back with future posts to discuss some suggestions to the sample questions I posed earlier. Please do not hesitate to contact me or share how you implement INBs in your classroom. Thanks for reading!

Atomic Structure for Interactive Notebooks

This set of interactive graphic organizers (IGOs) and notes has been sitting on my hard-drive for over a year [along with over a dozen other items]. There are twenty-six pages of items covering the basics of atomic structure. Additionally, there are over a dozen pages with instructions and pictures to help teachers implement the IGOs and notes in the classroom.

I have provided a collection of IGOs that cover various atomic structure topics that you may select from. Additionally, this set also comes with, I believe, carefully crafted no-prep notes that you can use to help your students understand the content [no prep = print and use immediately].  I incorporated several Checking for Understanding points in the notes to help chunk instruction. 

I also incorporated the Gradual Release format  (I do, We do, You do). This involves gradually shifting responsibility for completing a problem from the teacher to the students during guided instruction. When I do this, I always have the students look at me during the I do portion of the lesson and I model a Think Aloud (modeling my thought process) while solving the problem. Then for the We do portion, I pretend like I suddenly caught a case of amnesia and need the students to help me through. Finally, during the You do portion, students either work individually or collaboratively to solve the problem. This will allow me to move around, listen to conversations or view work, and formatively assess which students understand and which students may need additional assistance. 

Check out the 15 second preview and pictures below and/or continue reading about the Atomic Structure for Interactive Notebooks here. 

If you're interested in more interactive notebook items for the chemistry or physical science classroom, please click here.

I appreciate you taking time out of your day to stop by my blog. Please do not hesitate to contact me if you have any questions or want to share ideas. Have an excellent school year! :)

-Bond with James-

Amazing Water Trick

Short, Beautiful Chemistry Videos

5 Precipitation Reactions at various speeds.

This video shows the color change of purple cabbage and a flower named Teornia fournieri in sodium hydroxide and hydrochloric acid solutions.

The displacement of metals at various speeds.


Credit: Institute of Advanced Technology, University of Science and Technology of China (BeautifulChemistry.net)