As technology infiltrates every aspect of our lives, it is no wonder that solving crimes has become almost futuristic in its advances. From retinal scanning to trace evidence chemistry, actual forensic technologies are so advanced at helping to solve crimes that they seem like something from a science fiction thriller.
With all this forensic technology, its no wonder that this field is one of the fastest growing in the U.S. Shows like CSI and NCIS have made most of the forensic science techniques used today common knowledge. You might think that virtually the whole gamut of forensic technology is old hat to today’s savvy viewer. In fact, there are a number of incredibly cool forensic technologies that you probably never knew existed.

Covers the following 10 technologies:
1. Laser Ablation Inductively Coupled Plasma Mass Spectrometry (LA-ICP-MS)
2. Alternative Light Photography
3. High-Speed Ballistics Photography
4. Video Spectral Comparator 2000
5. Digital Surveillance For Xbox (XFT Device)
6. 3D Forensic Facial Reconstruction
7. DNA Sequencer
8. Forensic Carbon-14 Dating
9. Magnetic Fingerprinting and Automated Fingerprint Identification (AFIS)
10. Link Analysis Software for Forensic Accountants

Students learn about the concepts of accuracy and approximation as they pertain to robotics, gain insight into experimental accuracy, and learn how and when to estimate values that they measure. Students also explore sources of error stemming from the robot setup and rounding numbers.

This site has a series of pre-made free lesson plans that are ready to teach right away. MATH, ELA, SCIENCE, SEL, CAREER, ART, DIGITAL LITERACY, TECH, STEM

They have clips of popular movies and TV shows built right in - and you are allowed to use them bc the site is made by AT
&T and Warner Bros.

"The Achievery helps connect students to a new world of digital learning through stories that spark curiosity and content that entertains as well as teaches."

Don't miss checking this one out! You can use the filters to find exactly what you need.

You will have to sign up to access the lessons but it's totally worth it.

In this activity, learners will evaluate seismic activity along major San Francisco faults using satellite images and a fault map of San Francisco. They will identify a location where new housing can be built that is as close to downtown as possible, but far away from active faults. Links to the image and map are provided. This activity is part of the Event-Based Science (EBS): Remote Sensing Activities.

This story, featuring a pigeon named Amelia, takes place in New York City. Amelia's owner, a young girl named Maria, receives a gift from her grandfather-a camera specially designed for strapping on to a pigeon along with copies of old photographs taken of New York City landmarks. Suddenly, Amelia's flights around the city take on new relevance; she visits the Bronx Zoo, Central Park and Battery Park to take updated pictures of those same landmarks from her "birds-eye" perspective. Through Amelia's adventures, and with some help from a NASA scientist, Maria learns about the history of aerial images, the use of images to detect changes over time, the significance of color, texture and shape in interpreting those images, and the importance of images taken from today's NASA satellites to our understanding of Earth.

Check out Manitoba's Agriculture in the Classroom resources and activities which include hundreds of bilingual resources, lesson plans, free downloads, learning kits and more. You can filter by grade, resource type (Fun Stuff, Learning Activities, Online Game, Reference, Resource Kit, Student Activity Sheet, Teacher's Guide, Video), subject (Art, Career Exploration, ELA, English, FAL, Food and Nutrition, Geography, Health, Math, Physical Education, Science, Social Studies, Technology) and language (English, French).
This is a great companion resource to the AITC SK materials found at https://resourcebank.ca/courses/agriculture-educational-resources-ag-in-the-classroom.

This video is about wind energy including the advantages and disadvantages of this form of renewable energy.

Students develop an app for an Android device that utilizes its built-in internal sensors, specifically the accelerometer. The goal of this activity is to teach programming design and skills using MIT's App Inventor software (free to download from the Internet) as the vehicle for learning. The activity should be exciting for students who are interested in applying what they learn to writing other applications for Android devices. Students learn the steps of the engineering design process as they identify the problem, develop solutions, select and implement a possible solution, test the solution and redesign, as needed, to accomplish the design requirements.

Antimatter, the charge reversed equivalent of matter, has captured the imaginations of science fiction fans for years as a perfectly efficient form of energy. While normal matter consists of atoms with negatively charged electrons orbiting positively charged nuclei, antimatter consists of positively charged positrons orbiting negatively charged anti-nuclei. When antimatter and matter meet, both substances are annihilated, creating massive amounts of energy. Instances in which antimatter is portrayed in science fiction stories (such as Star Trek) are examined, including their purposes (fuel source, weapons, alternate universes) and properties. Students compare and contrast matter and antimatter, learn how antimatter can be used as a form of energy, and consider potential engineering applications for antimatter.

Students explore the interface between architecture and engineering. In the associated hands-on activity, students act as both architects and engineers by designing and building a small parking garage.

Remember your multiplication tables? ... me neither. Brush up on your multiplication, division, and factoring skills with this exciting game. No calculators allowed! The students will be given mutiplication and division problems which they must answer. They also have the option of being given a number then stating the factors of how that number was attained using either multiplication or division.

Ask Dr. Universe is a science-education project from Washington State University. Kids can send Dr. Universe any question they may have about history, geography, plants, animals, technology, engineering, math, culture, and more.

Students will use livestock weight gain data to construct and interpret line graphs.

Students are introduced to the concept of engineering biological organisms and studying their growth to be able to identify periods of fast and slow growth. They learn that bacteria are found everywhere, including on the surfaces of our hands. Student groups study three different conditions under which bacteria are found and compare the growth of the individual bacteria from each source. In addition to monitoring the quantity of bacteria from differ conditions, they record the growth of bacteria over time, which is an excellent tool to study binary fission and the reproduction of unicellular organisms.

Students visualize and interact with concepts already learned, specifically algebraic equations and solving for unknown variables. They construct a balancing seesaw system (LEGO® Balance Scale) made from LEGO MINDSTORMS® parts and digital components to mimic a balancing scale. They are given example algebraic equation problems to analyze, configure onto the balance scale, and evaluate by manipulating LEGO pieces and gram masses that represent terms of an equation such as unknown variables, coefficients and integers. Digital light sensors, built into the LEGO Balance Scale, detect any balance or imbalances displayed on the balancing scale. The LEGO Balance Scale interactively issues a digital indication of balance or imbalance within the system. If unbalanced, students continue using the LEGO Balance Scale until they are confident in their understanding of solving algebraic equations. The goal is for students to become confident in solving algebraic equations by fundamentally understanding the basics of algebra and real-world algebraic applications.

Play with objects on a teeter totter to learn about balance. Test what you've learned by trying the Balance Challenge game.

Students follow the steps of the engineering design process as they design and construct balloons for aerial surveillance. After their first attempts to create balloons, they are given the associated Estimating Buoyancy lesson to learn about volume, buoyancy and density to help them iterate more successful balloon designs.Applying their newfound knowledge, the young engineers build and test balloons that fly carrying small flip cameras that capture aerial images of their school. Students use the aerial footage to draw maps and estimate areas.

Look inside a resistor to see how it works. Increase the battery voltage to make more electrons flow though the resistor. Increase the resistance to block the flow of electrons. Watch the current and resistor temperature change.

Look inside a resistor to see how it works. Increase the battery voltage to make more electrons flow though the resistor. Increase the resistance to block the flow of electrons. Watch the current and resistor temperature change.

This article describes the urban heat island phenomenon and provides an overview of a research project investigating the effect as seen in New York City. Topics include the large proportion of earth's population now living in cities and the exacerbating effect of climate change on heat islands. A discussion of the study in New York describes how researchers used LandSat imagery to correlate the hottest areas of the city with a lack of vegetation (especially trees) in those areas. Suggested mitigation solutions included planting more trees, converting roof surfaces to reflect light, and the use of 'green roofs', specially constructed systems that use living plants as the outermost layer.