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My 9-year-old son's first science unit this year is electricity. While it's usually a struggle to get him to tell me about his school day...
Awesome STEM challenge cards for kids: Teach about building electric circuits with eight different printable challenge cards.
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Static electricity experiments are easy to set-up, and you already have everything at home that's needed. We share our favorites that my kids loved.
More than 100 entertaining projects and experiments are a fast and reliable way of learning basic principles of electricity. For maximum exposure to the fundamentals, three major categories — static electricity, magnetism, and current electricity and electromagnetism — are treated separately. No special or expensive materials are required. Detailed instructions and illustrations.
The word STEM is a new term that we did not have in school when we were growing up. It stands for Science, Engineering, Technology and Math. STEM is an educational philosophy that ties all of these subjects together with lessons that have projects and experiments that create an immersive learning experience.
If you need STEM projects ideas, this is THE place to go! This is a collection of over 200 STEM projects and activities that kids love!
For analyzing DC circuits , generally we use different methods such as ohm’s law, network theorems and other circuit simplification tools. A DC circuit analysis is performed mainly to determine the unknown quantities such as voltage, current, resistance and power which are allied with one or more elements of an electronic circuit. As a basic […]
Voltaic cells are driven by a spontaneous chemical reaction that produces an electric current through an outside circuit. These cells are important because they are the basis for the batteries that fuel modern society. But they are not the only kind of electrochemical cell. The reverse reaction in each case is non-spontaneous and requires electrical energy to occur.
Static electricity experiments are easy to set-up, and you already have everything at home that's needed. We share our favorites that my kids loved.
Women make up about half of the workforce in America, but they only represent 24% of the workforce in STEM fields. Why should we care? First and foremost, this statistic calls attention to an untapped potential; talent that we need in science, technology, engineering and mathematics in order to remain [...]
Squishy circuits allows learners of all ages, particularly children, to understand the basics of electricity and electronics.
Today, women are clearly making a push into STEM careers. See how women are making progress into STEM industries in this infographic.
Making electricity from a lemon is an experiment that all of us have done during out school time. However many people still ask - how to make electricity from a lemon? Technically, construction and working of a lemon is comparable to a conventional battery. The experiment involving a lemon consists of an electrode and an electrolyte which helps in conducting the electricity. How? Read inside the article to find out.
Use these STEM Experiments in your classroom to engage your students! Free from The Curriculum Corner and The Boys & Girls Clubs of America.
Here's a list of electrical conductors and insulators—and a look at why some materials conduct electricity better than others.
First Book is a nonprofit social enterprise that provides brand-new books to classrooms and community programs serving kids in need. They distribute over ten million books every year to children across the country, thanks in part to partners like Lockheed Martin. Any educators serving students in need or working at a Title I school can sign up to get books for their kids – for free and at low cost – online: http://www.firstbook.org/receive-books I am big supporter of STEM in the middle school classroom. When Brian Minter of FirstBook offered this infographic to share with my readers, I jumped on the opportunity. I know that the "STEM movement" is only on the cusp in some middle school classrooms, but I think FirstBook provides a great service to lower income schools in providing them with resources they may not otherwise have access to. In working towards earning my Masters of Science in Multidisciplinary Science (STEM) from Texas Tech University, I became more and more aware of the many connections that exist between science and math. It has dramatically impacted my teaching style and has made me a better science teacher. Before, I would stick to my science standards that the state had laid out for me, without even being remotely aware of the standards being taught in the math classroom (right next door to me!). I am embarrassed to say it now, but I know that there are others out there. My expertise is science....I went to school and got a science degree... I wanted to be a science teacher, never a math teacher. But how can you teach/do science without math? And what real-life application does math have without some mention of science? The answer is... you can't and it doesn't! We, as science teachers need to do a better job of partnering up with our math teachers to find the common themes, use common vocabulary and find the connections that exist and make them clear and known to the students. So many of my students for so many years have seen each content area as separate. They ask "Why are we reading in science?", "Why do we have to use correct grammar in science", "Why are we doing math in science class?" They truly think that subjects don't overlap or relate at all, which in my opinion is a huge travesty. In the real world, there is no separation. To do most jobs well, you need to be able to read, write, look at data, recognize when information being presented to you is not backed by substantial evidence and when it is. In the real world, there are no distinct content areas. Think this seems too overwhelming or don't know where to start? Wait a minute...it truly is easy. If you don't know where to start, simply look at the concepts you teach that involve math. Make a list of these concepts and visit a math teacher. What vocabulary do they use? I was surprised to see that some of the vocabulary was exactly the same, while there were some terms that were similar, but without making the students aware of the similarity, they may have never made the connection. At what point in the year does the math teacher teach a similar concept or review this concept that was learned in previous years? Will you (the science teacher) be the first one introducing the concept or will the math teacher? If you come to the material first, what is the best way for you to teach the math portion? Does the math teacher have any tricks? What ideas in science are supported by the math concepts? Calculating speed is a great example. Recognizing that speed is a rate will reinforce what they are taught in math. How does this rate look when graphically represented? Force, mass, and acceleration calculations work as well. Measurement is an obvious overlap and unless you live in the land of miracles, middle school kiddos still struggle with measurement. Density, work, Newton's Laws, the list goes on and on. Give kids a reason to use the math and I promise they will become more involved (even the most reluctant student.) There are also a lot of math teachers who would benefit from this dialogue. Students who struggle in seeing the value or application to the math they are learning might excel when shown what this math can be used for in the context of science.
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45 PROJECTS w/ Templates - Learn about electricity while creating interactive circuits in your makerspace. LEDs, copper tape, coin cell batteries, PDF
Brusspup presents some awesome science tricks using static electricity, including how to make a plate hover in the air.
Using a magic spoon to separate salt and pepper with static electricity is a quick and easy science experiment. Perfect for preschool and kindergarten!
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This simple overview shows you how basic electronic components work and what they do; resistors, capacitors, transistors, micro chips +++
Learn Robotics has a high-quality robotics curriculum for schools for students in coding, robotics, and STEM classes. Book a call, today!
Have your students tried Scratch and Snap Circuits but are ready for something more challenging?
Citrus fruits are acidic, and whenever any metal comes in direct contact with acid, the atoms of the metal give up electrons. The aqueous environment of the fruit, to a certain extent, mimics the conducting chemical of the battery, and the electrons start flowing through the circuit.
Use these STEM Experiments in your classroom to engage your students! Free from The Curriculum Corner and The Boys & Girls Clubs of America.
Your First Robot: "Your First Robot" gives you the complete step-by-step instructions for 15 different easy robotics projects. Learn everything from how to make a wall avoiding robot, to a "drunken" robot and even how to make your robot solar powered. All projects co…