Bullying in Schools

I decided that I want to finish this blog with a very important and recent issue; Stuart Chaifetz, a father of a son with autism, who is currently tormented with his horrifying discovery.

You can watch the video here:

In summary, Stuart noticed that his son, Akian, had a sudden change in emotion and personality. He was described as a normally upbeat, loving, caring child, and recently has had sudden mood swings that his father has never seen before. Stuart then runs into another boy in Akian's class, who tells him that Akian cries a lot in school. I could imagine, as a father, that this struck him like a nail to the heart. He then decided to send his son to school with a microphone and recorder, so that he can get the inside look at what is really going on in the classroom.

The result is absolutely gut-wrenching, I could barely get through the whole video. To hear the teachers and aide treat the students that way is absolutely appalling. It makes me extremely grateful to be going through such an enriching program and be taught how wrong this behavior truly is.

If you have a few minutes, please watch the video.

NJECC

As many of you know, I have been working at Montclair State University for a few years now actively monitoring, repairing, and maintaining the campus network as a Student Network Technician. Within the past two years, I have been working closely with an organization called NJECC, short for New Jersey Educational Computer Cooperative. Their meetings are gatherings of technology coordinators or teachers from districts all around New Jersey. Since they are all highly tech-savvy, they usually carry laptops, iPads, iPhones, and etc with them so they can constantly stay in the loop with their district. This is where I come in, making sure that all of their devices are registered and properly working on our network... but that's not the point here!

In their meetings, they discuss different ways to incorporate technology into the classroom. They are constantly bouncing ideas off of one another, collaborating during presentations, taking notes, and participating in demonstrations and instruction. Every meeting is sure to provide everyone with at least one beneficial technological advancement in the classroom before they leave.

I highly recommend getting involved in this organization. They meet once a month in University Hall. I plan on staying in touch with all of the people who organize the event; not only are they amazingly nice people, but they have been supportive of my teaching career since day one!

More information can be found at their website:

http://www.njecc.org/

XBOX Kinect In the Classroom?

I know, I was a little bit skeptical when I first heard it as well!

It turns out that Microsoft is very big on Education, and they always try to market their products towards learning and classroom integration. The most recent that I have heard of is their push for XBOX Kinect to be used in the classroom. Check out the video below for an example!

Microsoft itself has licensed MANY games to be used on the Kinect, and some of them, like as seen in the video, are meant to be implemented in the classroom. They also offer an SDK (Software Development Kit) for teachers to program their own software and tailor it to what their classroom needs. This idea can also be applied to a Computer Science course. Students can use the Kinect's sensors to make extremely intricate programs and software.

Read more about it at Microsoft's page by clicking on this text!

NASA's Amazing Astronomy Picture of the Day!

Hey all,

Many of you have seen this before, and I did mention it in an earlier post, but I feel that its importance merits a post of its own! NASA'S APOD (Astronomy Picture of the Day) is a photography database exactly as the name says; every day, NASA posts a new picture with an insightful and detail-filled paragraph long description of what the picture entails. Before I took Physics in High School, I was on this site every single day, filling my head with the plethora of knowledge that each picture had to offer. Now, 7 years later, I have the website set to be my homepage on every computer I own! Even after seven years, each picture is as breathtaking and intriguing as the last!

I highly recommend setting APOD as your homepage, or at the very least to your bookmarks folder!

Click here for NASA'S Astronomy Picture of the Day! 

Waves Applet

Hey all,

I just integrated this wonderful applet into my lesson on pendulum motion, and it's too good not to share!

This applet allows you to isolate or change all of the variables in a standing wave, such as amplitude, frequency, damping, tension, fixed end, loose end, or no end. This simulation can give students the visualization they need to tie together the concepts with any visuals in their head.

Check it out!

Final Project - Technology Integration Matrix

We all know of the teachers who, if asked, could not explain why they have integrated a specific technology into their lesson or classroom. Usually, they just go on the assumption that it will directly compliment the material; however, this may sometimes not be the case. For situations like these, a Technology Integration Matrix would solve all problems by directly relating the selected technologies to standards and teaching strategies, thus creating a flow of learning from right to left. 

I chose to integrate such a matrix into my lesson on Pendulum Motion, with a specific focus on the experimentation (lab) aspect, to map out the use of technology in my lesson. This matrix can be found here. As you can see, I have addressed three Science (Physics) standards and one Math standard in the first column. In addition to the core standards, I have also integrated some of the NETS-S student standards as well. In this lesson, the NETS-S standards will draw more focus to the use of technology to find, evaluate, process, communicate, and understand data found via electronic sources.

The 'Strategies' column is where the matrix all comes together. In this section, varies teaching strategies are listed and implemented, and also organized into Teacher, student, or assessment based. This section I found to be extremely helpful on breaking down where and when I will assess my students, and also how much freedom they will be given during the lesson. In this matrix, as you can see, students are given the majority of the lesson to learn and discover on their own. The exceptions are during classroom discussion (such as instruction, lecture, and directions), note taking during lecture, and any formative assessment strategies that I will place into the lesson.

Mathematica and Maple are two mathematic computation applications that can solve even the hardest of problems (given enough time and processing power). Students can enter their experimental data and draw equations from the relations (much like excel), and then formulate very detailed and specific graphs based on the generated equations. Although these are, by definition, technologies, they are also very strategic ways to analyze, present, evaluate, and organize data and equations.

The third column is a list of technologies that will supplement the correlated strategies and standards. For the most part, an active internet connection is necessary for the use of the strategies, especially with the rising popularity of cloud computing. Likewise, Microsoft Excel also shows up in nearly every row, simply because it is such a versatile program for anything involving data. For the students who do not know how to use Mathematic or Maple, Excel is a suitable alternative.

Although the content in the columns is very important, the main focus of the matrix is row-centered. In order, the rows are Access, Analyze, Evaluate, Produce, and Communicate. Each row is a microcosm, which when combined together, form a complete lesson that is infused with assessment and technology.

In my lesson, the Access row concentrates on the gathering of data via various information streams, such as in class discussion and note taking, lab group work, experimentation, and any internet sources. Class discussion and note taking are the only strategies that the teacher will be directly involved in, all of the others are extremely student-centered. During lab work, students will be able to develop their own sets of data by the manipulation of various apparatuses. When they are finished with their experiments, they are able to compare their data and findings with that of data listed online from similar experiments. Students are then able to assess what they did right or wrong during the lab, and adjust their apparatus and approach accordingly.

The Analyze section is where the students are able to look at the data and calculations they have acquired and develop a hypothesis. This is a section of the lesson that students may have to repeat several times, should their hypotheses not be correct or (reasonably) provable. This section is very similar to the previous in terms of strategies and technologies; however has the addition of YouTube and multimedia.

Evaluate is a very important part of the experimentation and lesson process. It is here that students will gather and assess data that is relevant towards their hypothesis. During this time, students will have access to various computational and experimental technologies, such as calculators, computer simulations, Mathematica and Maple, and also peer analysis and discussion. In my findings, it is not uncommon for students to coordinate between different lab groups and compare their findings and data.

Produce is where students use their findings to defend or prove (or in some cases, disprove) their hypothesis. Here they can propose alternatives to today’s accepted hypotheses, explore different ways to solve problem sets, and experimentally prove any theorem or phenomenon. There are many interactive simulations that can be found online that can be of assistance during this process. For example, if students are trying to figure out how frequency affects the visual appearance of a wave, they can find an applet, such as this one, that will allow them to isolate frequency as a variable, and experiment with its affects.

Communicate, as far as the teacher is concerned, is perhaps the most important of the rows. In this section of the lesson, students present their findings to the rest of the class. The technologies and pathways in which they can utilize to aid them is endless, they can use anything from a poster to an elaborate PowerPoint that is cluttered with Mathematica coding.

Overall, this technique for mapping and analysis of a classroom is extremely efficient; it takes nearly half the time that a lesson plan takes to make, and can be used as an outline to formulate a lesson plan, or even a whole unit!

Powerpoints in Physics

This post is more to gauge the opinion of my fellow science teachers. I am not completely opposed to PowerPoints integrated into Physics lessons, but I do not think I will be using many (if any) of them in my own classroom. Although it is good to have a pre-prepared presentation, including diagrams and solutions, I still prefer to show the students how to do such things on their own.

Thoughts? Comments?

Physics Today

Recently, while in my cooperation teacher's classroom, I was given a copy of "Physics Today" magazine. Immediately, it had my attention by the cover article; it was about Lockheed Martin's "Green Machine", their airplane that is economically efficient and can also break Mach 1. As I flipped through the pages, I realized how essential this magazine is for Physics teachers. Every page was littered with Technology and offers and amazingly interest articles. I read through the entire thing, page to page.

They have a website which you can access by clicking here. I highly recommend at least browsing the website for a bit, they have some cool stuff on there as well!

-Joe

Pendulum Period Video

Hey all!

First, watch this video and bookmark it immediately!

I have implemented this into a few of my lesson plans; it is a short (1:45) video that shows how a pendulum's period directly depends on the length of the pendulum. All of the pendulums have the same fixed balance point, same starting amplitude, and same mass. As seen in the equation  T=2pi(sqrt(l/g)), as long as gravity is kept at a constant rate, a variation in length is the only thing that would effect the period.

I highly recommend showing this video as a segue into any lesson involving waves!

-Joe

Interactivity #5

The teacher I interviewed is a Physics teacher in the district of Fair Lawn who is born and raised in New Jersey.  He teaches students ranging from sophomores to seniors and has sections in Honors and A.P. Physics. Currently, he is teaching four classes at Fair Lawn High School.

His Literacy with the NETS Standards was adequate; he has been to a few workshops that touched on them, so he knew of the overlying idea, however he did not know the individual standards.  As he read the standards that I gave him, he began to remember them. When I brought up the topic of him implementing them into his classroom activities, he smiled and pointed to some of the equipment he uses for demonstrations; old power supplies, a ring shooter, and a few blocks of wood with resisters clipped to them. He has integrated so many demonstrations via technology into his lessons that DIRECTLY apply the physical phenomena that the students are learning; he’s been well ahead of the NETS game. 

When I pointed to the third teacher standard (Model Digital Age Work and Learning), he showed me the electronic grading system that the district has implemented. This program allows students, faculty, and parents to easily and efficiently keep track of students’ progress. He also referred me to the website that his “Physics Bowl” league uses, and how they post the scores of how students did to compare to local towns (this also ties into the fifth teacher standard).

When we began talking about how the student Standards are implemented in his classroom, we quickly realized that they were not. The students did not use any digital tools in the classroom (with the exception of basic calculators) for their work; it was all done by hand on paper with pen/pencil. I began showing him some simulations (I actually went to this blog to pull up the “Scale of Universe” post) and interactive tools that he could integrate into the classroom. Although that applet is not immediately relevant to any topics that the A.P. Physics students, we agreed that it would be a great experience for the students. 

I feel as though this sparked a fire within him, because we kept looking for more and more online tools and resources that the students can use; I was surprised to see him take to the idea so quickly! I am very excited to see how he integrates them into his teaching style, maybe now I can get him to stop using the “old-school” overhead projector!

As a Future Educator, I believe that implementing these standards into my lesson is a fairly easy task. In fact, I always imbue my lesson with some form of technology, both teacher and student centered. Hopefully, I can show my future colleagues how simple it is to reach students by using the vast amount of digital tools and resources available to me.

Click here for my Integration of NETS into a lesson plan!

Interactivity #4

Foucault's Pendulum: Analysis

Since Foucault Pendulums are not easily replicated (it is hard to produce one with a near-frictionless pivot), the easiest way to present them to students would be via the internet. In a lesson titled “Foucault’s Pendulum”, students are given a wide array of tools and discussions to educate them on not only Foucault’s Pendulum itself, but also the properties of a pendulum, general pendulum motion, and computational skills to solve for period.

Aligning a Physics lesson with appropriate NJCCC Standards is a little tricky, especially when more advanced topics such as Thermodynamics, Optics, Electricity & Magnetism, and advanced Newtonian Mechanics are applied; there are not many standards that are directly relevant to the fields. My main focus for this lesson was synchronizing the important parts of the lesson with the higher level (12^th and two 8^th grade) standards. During the lesson, suggested Essential Questions such as “What observations can you make about the motion of the pendulum?” will lead into discussions that allow students to manipulate their explanations, data, and ideas into Scientific Hypotheses (5.1.12.B.3). 

Giving students opportunity to “flex their scientist muscles” will not only give them insight on how to incorporate what they see into hypotheses and theories, but also improve their Scientific literacy. Overall, the lesson was smoothly transitioned from task to task, and required little-to-no editing on my part; I believe it will make an entertaining, fulfilling, and exciting lesson.

Allowing the students to utilize the animations and online computer simulations plays a quintessential role in their development of theories and ideas. In Physics, it is just as (if not more) important to see/manipulate the ideas and concepts that are being learned than it is to simply hear about them and take notes and tests.

Scale of the Universe

The Scale of the Universe

^ !Click! ^

I've been sitting here at my keyboard for half an hour trying to find words to describe how amazing this tool is, and I still cannot even gather my thoughts; it's perfect. The music, the imagery, and the message.

This tool allows the user to "travel" from the smallest known distance (1 Planck Length) through atoms, cells, humans, the Eiffel Tower, the planet, galaxies, all the way until the projected known universe. All while playing extremely soothing and inspirational music in the background.

When teaching the students units of distance, this tool can be used to show them the relationship between all of the prefixes they will use, and their scaling in reference to each other. I will definitely be using this in the classroom, hopefully more than once!

Interactivity #3 - Collaborative Science Technologies

Working with people from within my subject area was an absolute pleasure. We all have the same efficiency, mindset, and techniques for accomplishing what needs to get done; directions, concepts, and strategies from each of us were combined and reflected in the final spreadsheet.

The Physics Classroom is one of my favorite technologies that we posted in regards to Physics. In has essential tools for sustaining a Physics classroom; worksheets, online activities, and even lessons online! This tool will not only be extremely helpful for me while teaching a lesson, but can also be used as an outside resource for my students. Aside from their class notes and after-school tutoring, they can always navigate to this site if they are having trouble (as long as the lesson we are learning is included on the website).

Overall, the majority of the technologies can be translated and used in my subject area. As a collective, I will absolutely be keeping in touch with the colleagues I have worked on the spreadsheet with; not only to exchange ideas and strategies with integrating these technologies, but also to keep up with any new ones they may find.

Since Curr 314- Assessment has just started, I am not entirely sure how to integrate these technologies into my assessment. For any virtual activities, simulations, or power point presentations, there will have to be conditions and gradation established and based off of the students' abilities.

Teaching Language and Literacy (Read 411) can be made a lot simpler with some of these resources. For example, PowerPoint is a great way for students to see new vocabulary in addition to it being spoken orally. Also, NASA's APOD (Astronomy Picture Of the Day) is a very good way for students to become acquainted with and introduced to vocabulary, terms, and techniques used in Astronomy and Astrophysics. A lesson can be developed around every single image posted on that website!

Brilliant minds will forever be sharing their knowledge.

Technology and Me

Step One: My three most influential communication technologies:
Myspace
Skype
Video Games

Step Two: Olivia's Story
As a teacher, it is very important to know what resources your students do and do not have available to them. Although Olivia did not own her own computer, she would find any means necessary to engage in her favorite online activities such as customizing and communicating via her Myspace page. As Olivia's teacher, I would find this very important information, because I can incorporate it into the lesson. Problem solving can be presented to her in a manner that will relate to Myspace customization. When you customize a Myspace, you're essentially fine-tuning every variable and setting; trying to get the boarder to line up perfectly or the picture to be exactly where you want it. This isn't far from any Physics problem; each variable needs to be fine tuned in order to output the correct solution. Olivia knows how to isolate each of these variables and successfully solve these problems, and it would be up to me to show her that.

Step Three: Using Technology to Learn
In this video, these students were taking advantage of more modern technology such as twitter, email, cell phone cameras, and video games. Some of these technologies, such as iPods, headphones, music-production, and Macbooks can be used for entertainment purposes. When I was in High School, music was one of the most influential and important things in my life; I would wake up and put my iPod on, and go to sleep with my favorite album on. For these students, the amount of availability for musical entertainment is truly amazing. I would love to integrate this technology in my classroom, as long as my students have the available technology.

As for Myspace, Facebook, and Twitter, these sites are really iffy when it comes to education. There are many ways in which they enhance the learning experience by providing students more pathways towards learning and sharing information. However, the downside is that these websites are SERIOUS time-wasters. Speaking from personal experience, Facebook is not something you want to have during finals week.

Step Four: How Technology has shaped my life

When I was growing up, it was all about Myspace. One of the most important features of Myspace is the vast customization options available to users. This allowed every profile to be unique and tailored specifically to the owner, which gave a sort of "personality" to each page; one that reflected the user. Much like Olivia in the video "Olivia's Story", I became absolutely fascinated by the customization aspect of Myspace. It wasn't long before I was creating and adapting coding to other people's Myspaces, including a few pages for some local bands that my friends had created. I was essentially "The guy" to go to if you wanted your Myspace to have a fancy background and some special effects.

All of my experience on Myspace was working with coding and music rather than for social networking. This gave me that "tinkering" edge that I needed to succeed in Mathematics and Physics. I do believe that all of that time spent programming, coding, and adjusting all of the profiles has provided me the type of thinking and technique that has given me such an advantage in the classroom, both as a student and a teacher.

Skype is becoming an increasingly popular way to audio or video chat with friends. Although Facebook and Twitter have made it extremely easy to communicate with my classmates, peers, and family members, I still prefer the personalized touches of voice, video, or in person conversations; everything else seems a bit cheap, like I am barely even communicating with this person. I have used Skype for many reasons: catching up with a friend I haven't seen or talked to in a while, sending files, coming up with plans for the night, and for voice chat while playing video games. These are very similar to the reasons that the students have used their versions of communication via the internet.

All of my life I have always played video games. It was always such a big part of my life, I would play by myself or with my friends, sisters, and/or cousins. I used to love being stuck inside on a rainy day with my cousin and playing whichever video game we were obsessed with at the time. It was more than just "something to do" but rather something that provided us entertainment, thinking, and strategy development. Unlike in the video, where the one student described that he likes to "go back" and redo something such as kicking a soccer ball when he misses, I am not a big fan of that. I much rather prefer the games that are unforgiving; i.e. you make a mistake, you face the consequences and pay for it. I believe that this type of game makes the player learn faster in order to avoid more consequences.


Technology has given me education and social skills that have helped shaped me as a person. Without it, I am not sure that I would be on the same path that I am today, a path that I am very passionate about.