By: Rachel Hawkins, North Dallas Gazette Staff Writer
When you get on an airplane, it’s most likely that the last thing you’re going to think about in the midst of checking your over-weighted luggage, being held up by TSA, and the chaos of finding your flight on time is the mechanics of flight and how it works.
But luckily for some Irving students, they are taking a whole new meaning to taking flight.
Only offered at Irving High School through their aviation science program, these students are gaining the unique chance and experience to learn about different types of aviation, how they work, and why.
Craig Heckel is the program’s coordinator for the Irving High School of aviation science.
The program started in 2012 when the aviation industry was looking for more people to join the field.
“The industry is trying to grow, and it can’t grow because there are not enough people coming in the front door to match the people who are going out of the back door,” Heckel said. “The industry was recognizing that, and they were going to the colleges to do recruiting but that wasn’t good enough. So now they are going to the high schools to start these programs to get people interested, and let them know there is a huge umbrella of aviation that you can work in electronics, computer programming, or be a fireman under aviation.”
Many airlines came to Irving High School to ask, “what can you do?”
The program is open from ninth through twelfth grade. Everyone starts off by taking principles of aviation in ninth grade. In tenth grade, they will begin to expand more in-depth on various aviation concepts.
At the end of the tenth-grade students can choose which track they would like to pursue for their final two years. They can either choose from drone engineering, flight, and then the mechanical side.
“We teach about everything,” Heckel said. “In their freshmen and sophomore year, we look at GPS, learning how to fly, various principles and Newton’s laws. So all of the things that affect aviation.”
In addition to learning different aspects of aviation basics and principles, students will have an opportunity to practice hands-on engagement.
“In some cases, I had the students build the equipment like wind tunnels so they can actually get the experience of seeing it,” Heckel said. “They will see how it works, and when you put something in it, and how it’s affected. We have all the normal tools. We have a full workshop in the back for making things.”
The students will use everything from band saws to electronics with soldering irons.
Angie Maravi, a junior at Irving High School, takes drone engineering at the school. She is highly interested in drones and wants to go into aeronautical engineering.
In her class, she will usually use a computer-aided design system to make digital 3D models.
“For example, right now we are working on UAV, an unmanned aerial vehicle,” Maravi said. “We also do a lot of research about what is going on in the industry. We also do research from the past. One example is from the 1990s [when] there were a lot of aircraft crashes happening. So Mr. Heckel would talk to us about the importance of communication between captains and officers.”
Heckel stated he loves to have his students dig for topics that interest them to get them more involved and excited.
Each year the students will work on a Real Life Design Challenge. This is when the students are given a set of parameters and software and will work together in teams to take on real-world engineering challenges. They are able to make their own design where they will present it to the state first and if they succeed they will go on to nationals.
In the first year of competing, they were named the best team in the state while advancing to the national competition in Washington D.C. They were then named the Best First-Year Team.
This year they won state for the second year in a row.
Since the students have different classes they are hardly ever together to work on the project. Instead, they hold after-school meetings where they would work on the project at different times.
Right now, for their real-world design challenge, they are working on supervising the plant health of urban areas.
“We have to build our own UAV design analysis,” Maravi said. “We decided to do a hybrid, which is basically a drone and a fixed-wing aircraft. I am the design analysis manager and I am the one who does the math behind it. I really love the math and science behind it.”
In the program, there are several components involved. This can range from math, science, communication, and teamwork.
“I haven’t really done a lot of it this year, but I like for them to look at accidents because I believe we can learn so much from it,” Heckel said. “Also, safety is huge. There are two lessons I teach first: safety and ethics. They don’t really get a lot of ethics, and this being a career in technology education, we’re focused on running this very similar to a job.”
Just like an actual aircraft is built in places all over the world, the students will work on separate parts of their aircraft in groups, building the aircraft in sections, and then bring it together.
The students can also get a certification in safety through the program which will start later in the semester. Students can obtain this certification in as short as a week.
Last fall, Wisconsin’s Republican Gov. Scott Walker used Southern Door High School’s newly installed 3D printing lab in this small town near Green Bay as a backdrop to propose a $639 million increase in public school funding.
“We know that ensuring our students’ success, both in and outside the classroom, is critical to the state’s continued economic success,” said Walker, now in a fierce campaign for a third term against long-time state schools chief Tony Evers.
The Southern Door County schools, administrators say, got almost none of that money. In fact, the 1,029-student district—rural, losing students, and hampered by tax revenue caps put in place more than 20 years ago—had to make severe budget cuts this year and pull an extra $200,000 out of its savings account. If a referendum on the county ballot this fall allowing the district to exceed its revenue cap fails to pass, there will likely be more cuts next fiscal year.
The intricacies of Wisconsin’s school spending and whether districts like Southern Door need more or less money from the state has come to dominate the gubernatorial contest between Walker and Evers, both of whom have made their education records a high-profile piece of their pitch to Wisconsin voters in the November election.
Walker says that by leading the charge to turn Wisconsin into a right-to-work state with the passage of legislation in 2011 that stripped the bargaining rights of public employee unions including teachers, he’s saved the state more than $3.5 billion, while keeping property taxes low and expanding school choice. He has claimed his most recent budget provided districts with $200 more per student, though many dispute that fact.
Under Walker between 2011 and 2013, the state cut education funding by some $800 million, hitting some districts harder than others. Spending has rebounded since then, but Walker’s critics say it hasn’t been enough to keep up with inflation.
Evers says Walker’s budget cuts over the years crippled school districts’ ability to provide students with basic resources, causing massive layoffs and a teacher shortage across the state. He has proposed to boost spending by more than $1.7 billion…
Read full article click here, may require ED Week Subscription
Is it possible to test how creative someone is? There are quite a few tests on the internet that claim to do so. Of course, there are also “tests” on the internet than can tell you which Star Wars character you are. We know the people designing those tests are creative, but what about your regular American student?
This week’s Deeper Learning Digest covers a new creativity test designed for U.S. fifteen-year-olds and their international peers. It will also explain why fifteen-year-olds and other adolescents are hard-wired to adopt social media and take up extreme sports such as skateboarding and snowboarding. Finally, it will examine the common, the controversial, and why March—and not December—could be the most wonderful time of the year.
Are U.S. Students More Creative than Their International Peers?
Through the years, U.S. fifteen-year-olds have not fared well on the Programme for International Student Assessment (PISA), an international test given every three years by the Organisation for Economic Co-operation and Development (OECD). (See more in “How Does the United States Stack Up? International Comparisons of Academic Achievement.”)
Still, some education advocates tend to brush off poor PISA results by saying that U.S. students are much more creative than their international peers and THAT is the skill that really matters. As evidence, they point to the booming tech industry and the many successful start-ups that begin in the United States. Those examples are more anecdotal than empirical, but what if there was a test that could measure creativity?
Writing for Education Week, superstar reporter—and Alliance for Excellent Education fav—Catherine Gewertz notes that such a test is in the works:
“When teenagers all over the world take the PISA exam in 2021, they could face a new kind of test: one that aims to measure their creativity. And the maker of a major U.S. college-admissions exam—ACT—will build it,” Gewertz writes.
“A fundamental role of education is to equip students with the skills they need in the future,” said Andreas Schleicher, director for education and skills and special advisor on education policy to the Secretary-General at OECD, in a September 19 ACT press release. “Creative thinking is a necessary competence for today’s young people to develop, as societies increasingly depend on innovation to address emerging challenges. PISA 2021 will take international assessments into a new phase by gathering data on young people’s creative thinking skills.”
Citing Mario Piacentini, the OECD scientist leading the project, Gewertz writes that the creativity component is not a sure thing, but that the plan is to “present the exam’s framework, and ideas for possible test questions, to the OECD countries in November, and gauge their level of interest in participating.”
If the test happens, we’ll finally know for sure whether American students are as creative as we all think they are. Or maybe we’ll just have something else to argue about.
[/media-credit] Participants in the DanceLogic program. (Facebook)
Shanel Edwards, co-instructor of danceLogic, stated that “danceLogic is helping these girls have access to the arts realm and science world as possible career paths, it is allowing them to stretch their own boundaries of what success looks like for them. ”DanceLogic, a unique S.T.E.A.M. program that combines dance and computer coding leading to the development of original choreography and performance, is continuing onto its second year. Girls ranging from the ages of 13 through 18 years participate in the program held at West Park Cultural Center in Philadelphia and learn the value of focus, dedication, and teamwork, as well as industry standard coding language.
During the dance class, led by instructors Edwards of D2D The Company and Annie Fortenberry, a performer with Ballet 180, the girls learn dance skills and movement techniques. This is followed by an hour of learning industry standard coding language under the direction of coding instructor Franklyn Athias, senior vice president of Network and Communications Engineering at Comcast. “I’m helping the kids see that someone, just like them, was able to use Science and Technology to find a very successful career,” Athias expressed in a press release.
The girls use coding to create their own choreography. “The combinations of dance and logic have good synergies. Learning something like dance requires practice, just like coding,” said Athias. “The dance is more physical, but it requires the students to try, fail, and try again. Before long, the muscle memory kicks in and the student forgets how hard it was before. Coding is really the same thing. Learning the syntax of coding is not a natural thing. Repetition is what makes you become good at it. After learning the first programming language, the students can learn other programming languages because it becomes much easier.”
“My favorite thing about the program is that the students can explore leadership roles. By building their own choreography and supporting each other in coding class, they navigate creating and sharing those creations, as well as resolving conflict to make one cohesive dance. There’s a lot of beauty and bravery in that process,” stated Fortenberry.
]The very first session of danceLogic culminated with the girls performing choreography and sharing what they learned through coding and how it has impacted their lives.
Mobile apps have become “must have” classroom tools, and students are naturally drawn to their interactivity. Whether you’re looking for an app to help with classroom management, exploring different languages, or figuring out tricky geometry problems, there’s an app for anything and everything.
With hundreds of thouands of apps out there, finding the right ones to use can be a challenge. To help you navigate the waters, NEA Member Benefits asked your fellow NEA members for information about apps they find useful in their classrooms. Below are their picks along with some helpful advice.
SALT LAKE CITY — The Utah State Board of Education Career and Technical Education (CTE) section announced that the Bear River Region is the winner of the 2018 Utah Excellence in Action award. The AM STEM (Automated Manufacturing STEM) program in Bear River Region was selected based on their uniquely inventive and effective approaches to stimulating student learning, offering extensive work- based learning experiences, maintaining strong partnerships with industry and community organizations, and preparing students for postsecondary and career success.
The AM STEM program represents the best CTE program in the state of Utah. While the program is unique, it offers a rigorous sequence of courses beginning with foundational skills to subject-matter, real-world hands-on experiences in the classroom led by dedicated educators, and meaningful work- based experiences facilitated by industry partners.
Bear River Region, in collaboration with industry partners, higher education, and secondary education, has created a career pipeline for high school students by offering a program that meets industry needs. Students involved in the program take courses at their high school that align with the requirements found in industry. The AM STEM program combines coursework with work-based learning experiences to support student exploration and skill development.
Sen. Patty Murray, D-Wash., and Sen. Sherrod Brown, D-Ohio, expressed concerns about the virtual charters’ student-teacher ratios, students’ performance compared to their peers in traditional public schools, and their transparency when it comes to issues like executive pay and advertising.
“Accountability models, funding formulas, and attendance policies were created for brick-and-mortar schools, and yet, state funding and accountability policies have not kept pace with the growth of virtual charter schools,” Brown and Murray wrote to the agency.
Virtual charters have been going through a very difficult stretch. There’s intense skepticism about their performance and management practices. In Brown’s own state of Ohio, for example, the Electronic Classroom of Tomorrow disintegrated after a lengthy court battle over its claims about student enrollment. (Brown and Murray mentioned the ECOT fallout in their letter). Cyber charters in states like Georgia and New Mexico have also struggled to stay open.
Read the full article here. May require an Education Week subscription.
Osmon Best carefully looked at the eight steps to make a paper football.
After successfully crafting the football, the 12-year-old Thomas Johnson Middle School student stood it on a makeshift Washington Redskins table and plucked it to the other side. Touchdown!
Best and 39 other students from Thomas Johnson and Oxon Hill Middle School participated in various STEM projects Wednesday at the Howard B. Owens Science Center.
“I made a touchdown, but missed a field goal,” Osmon said while smiling at the engineering station.
The sixth-, seventh- and eighth-grade participants, decked out in blue “Pepco STEM All-Stars” T-shirts, were recognized for their academic achievements. The schools they attend are recognized as STEM (Science, Technology, Engineering and Mathematics) buildings.
The students from Thomas Johnson in Lanham would matriculate to DuVal High School, which has an aviation program. The Oxon Hill students would feed into Oxon Hill High School and can enroll in its science and technology program.
“This is intentional,” said Monica Goldson, interim CEO for the county schools system. “We hope at sometime during this three-year experience that something has grasped them to give them the courage they need to say, ‘I can do that, too.’”
During Wednesday’s event, students dispersed to four STEM stations, which all focused on a football concept.
At the mathematics station, Thuy Pham, 12, answered three questions based on a touchdown equaling seven points, a field goal equaling three points and a safety at two points.
One of the questions: If a quarterback completed 80 percent of the 35 passes he threw in the past three games, how many did he miss? The answer: seven.
“This was fun. I want to be a math teacher,” said Thuy, a seventh-grade student at Thomas Johnson. “My parents used to be math teachers, so it’s kind of a generational thing.”
The climax of the day came when students worked together on a few combination locks to open a black box.
Goldson led a countdown to open the boxes, which were filled with clues to let the students know they will attend Sunday’s Washington Redskins game at FedEx Field in Landover against the Carolina Panthers. She said tickets will also be provided for the student’s parents, courtesy of the Redskins and Pepco.
“Oh, yeah!” one student yelled from across the room.
The first years in a classroom are some of the most exciting and memorable in a teacher’s career—as well as the most challenging.
CEA invites new teachers to gather insights and advice at our annual conference for early-career educators. Participants may choose from 10 timely workshops to help hone their skills—from creating a culturally responsive classroom to managing behavior and acing their evaluation.
The half-day conference is free and includes continental breakfast and lunch.
“Let me introduce our new TA, Alexa!” This may be a plot in a science fiction movie, but that day may soon come true in school. Recently, “the toy-giant Mattel announced it had pulled the plug on plans to sell an interactive gadget for children” (NPR). The device, named Aristotle, looked similar to a baby monitor with a camera, but could “displace essential parenting functions, like soothing a crying baby or reading a bedtime story.” Aristotle, powered by artificial intelligence, can collect large-scale data about a child’s behavior by tracking and surveillance and then through computation, interact with the child.
Artificial Intelligence (AI) and Machine Learning (ML)
Artificial Intelligence (AI) and Machine Learning (ML) are two very hot buzzwords right now. AI is a broader concept about machines being able to carry out tasks in a smart way (Forbes). ML refers to some specific application of AI, namely, feeding machines with data and let machines learn for themselves. The life of AI and ML depends on ubiquity and big data.
What questions should educators ask before AI and ML creep into classrooms?
Increasing the collection and computing of big data in children’s lives is the trend of AI and ML, but it challenges educators. The 2018 Interaction Design and Children Conference (IDC) discussed at least four areas where scientists and educators should consider using the ubiquity of technologies and big data to benefit children. The identified areas include:
Control and ownership –
To what degree can and should students and parents control data about them?
Are control, ownership, and data privacy transparent and easy to understand for all stakeholders (i.e., students, parents, teachers and school administrative staff)?