Challenge
This month's challenge is a little different than previous months'. It is based on the Hour of Code! The challenge is to have every student in your classroom complete at least an Hour of Code in the month of December. The Hour of Code initiative takes place each year during Computer Science Education Week, which is December 3-9. You can experience this at any time of the year, though! It is held annually in recognition of the birthday of computing pioneer Admiral Grace Murray Hopper (December 9, 1906). The Hour of Code started as a one-hour introduction to computer science, designed to demystify "code", to show that anybody can learn the basics, and to broaden participation in the field of computer science. It has since become a worldwide effort to celebrate computer science, starting with 1-hour coding activities but expanding to all sorts of community efforts. Head here, https://hourofcode.com/us/learn, to checkout the free tutorials and experiences for all grade levels. Additional information about completing the challenge and on the initiative can be found at https://hourofcode.com/us. Happy Coding!
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Challenge
Veterans Day is a holiday observed annually on November 11 that honors military veterans. It marks the anniversary of the end of World War I, which formally ended at the 11th hour of the 11th day of the 11th month of 1918. It celebrates the service of all US military veterans. These veterans are extremely important to us. Their uniforms are important to them. They use camouflage (make something blend in with their surroundings). Camouflage has been engineered over and over again to help veterans. Your challenge is to design camouflage for a soldier so that the soldier blends in with the room. What colors will work best? Where will the soldier blend in easiest/hardest? Will you need more than one color? Your soldier should be colored and then hung up somewhere in the room so that it is camouflaged. It shouldn't be hung behind items but placed on top of the item. Challenge yourself to use more than one color of camouflage or place your soldier on different colors. *Thanks to Mr. Norman Glover at Portville Central School District for the idea/inspiration! Materials
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Apples are the fruit of the season, autumn. There are so many ways to eat an apple, from apple cider to apple pie. Apples can be picked right from the tree or off the ground if not too severely damaged from their descent. Certain technology has been engineered to pick apples from trees. Most look like 3/4 of a small wire cage to grab and catch the apple on the end of a long handle. But, what about picking apples up off the ground? Is there something better that would work for this task? Your challenge is to construct a device for lifting an apple or more off the ground. What will be the best materials to use? What already exists in the real world that lifts items? Would it be better to lift more than one apple at a time? Your apple picker upper does have some criteria and constraints. Only the materials provided can be used in your design. Your device has to be able to lift an apple 30 cm off the ground. The device must lift the apple without too much assistance (try to use simple machines to do the work). Materials
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It’s September and time to get back to school! At the beginning of the year, establishing routines is a must. Why not include collaboration and teamwork as part of that routine? This month’s challenge provides the opportunity to focus on teamwork. As they say, teamwork makes the dream work. Your challenge is to work together to build two exact structures out of building materials. Half of the team will get a structure already built or not, but then guide the other half of the team to build the same thing. Your team does have some criteria and constraints. Your team will consist of 4-6 people. Both team halves (2-3 people) will get identical building supplies. But your team cannot see each other or the building materials. There should be a divider put between the team halves, so the structures cannot be seen. One half is the guide team instructing the other half to build the same structure. Materials
Challenge
One activity my family and I just did this summer was a water balloon toss! We filled many balloons with water, but all the balloons had different amounts in them. We weren't being scientific at the time because our main goal was fun. But during the toss competition, I started noticing some differences. Some water balloons broke very easily when tossing back and forth. Other water balloons bounced off hands and off of concrete like bouncy balls! How could this be? What was the difference? This made me think of this month's STEM Challenge. Your challenge is to construct the best device for catching a water balloon without it breaking during a water balloon toss. What will be the best material to use? Are there items already designed or things from nature you could replicate? How far will your design last? Your water balloon catcher does have some criteria and constraints. The water balloon being tested should be about the same size for all designs. The same distance should be used when tossing back and forth to the water balloon catcher. Materials
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The sun emits harmful UV rays year-round. Even on cloudy days, up to 80 percent of the sun’s harmful UV rays can penetrate your skin. Sunlight consists of two types of harmful rays that reach the earth — UVA rays and UVB rays. Overexposure to either can lead to skin damage. In addition, here are other effects of what each of these rays can do:
For criteria and constraints, it’s up to you to figure them out! It’s suggested that you put the same number of beads in the same kind of bag. The testing protocols are yours to choose, but just make sure everything you conduct is a fair test. Materials
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The first parachute jump was taken by Garnerin in Paris in 1797. Since then, engineers have been designing many types of parachutes for different needs with the right material and attachments. June is a great month to get outside and go sky diving with parachutes! For this challenge, you won’t be building a parachute for yourself, but for a toy to safely reach the ground. Your challenge is to construct the best parachute for the safest landing for a plastic figurine. What will be the best material to use? What do parachutes look like? What type of string should be used to attach to the figurine? How large should the parachute be and how long should the strings be? What is the most effective parachute for the figurine? Your parachute does have some criteria and constraints. Only the materials provided can be used in your design. Your parachute has to be connected to the figurine the same exact way for all tests. The same height should be tested every time. Materials
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This month is the 144th Kentucky Derby. The best horses will race 1.25 miles around the track at Churchill Downs. Who will help them guide the track? The jockey that rides the horses will do this. A jockey must be light in weight but still be able to control the horse. This a large factor in the competition and winning the race. So for this month, the challenge is going to be creating and designing a mock jockey for a mock horse! How can you make your jockey aerodynamic? How will the jockey stay on the horse? Where should the jockey sit? What will be the race conditions? Your challenge is to think about these questions and use all your given materials to build a jockey that will sit on top a matchbox car (your horse) and goes the fastest speed or longest distance. Your jockey does have some criteria and constraints. Only the materials provided can be used in your design and ALL of them must be used. You should try to use the same matchbox car as everyone else in the class. The jockey must stay on the car for the entire race. You cannot change the car in any way. The race must be conducted as fair as possible. Materials
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The windiest month of the year is usually March. The second? April. It’s a little nicer in April than in March to fly kites, which is why it’s the National Kite Month. Besides flying kites, what else does the wind help us do? One thing that has become more common is using the wind to generate power (energy) with windmills. Windmills will be involved in the challenge this month. The challenge is to build windmill blades that generate the most power. How many blades should there be? What types of blades catch the most wind? Use your skills to find out! Your windmill blades do have some criteria and constraints. Only the materials provided can be used in your design. The blades can only be a certain height determined by the height of the windmill base. The blade spokes need to be coffee stirrers or craft sticks, but part of the blade that catches the wind can be any material. Materials
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Leprechauns should be making their rounds this month, hiding under rainbows with their pot of gold and four-leaf clovers. Just imagine if you were able to get close to a leprechaun and all its gold. What would you do? Steal his gold? Well, that’s going to be part of the challenge this month. We aren’t going to trap the leprechaun but try and take the gold right from under his nose. Your challenge is to design a tool that will be able to grab the pot of gold from a distance as if you were in the bushes. What will you design, a lasso, a grabber, a sticky hand, a long hook? Your gold taking tool does have some criteria and constraints. Only the materials provided can be used in your design. The tool must be able to reach at least 2 feet. You will also want to make sure the pot of gold doesn’t tip over and spill any gold. The more gold in the pot when it reaches you the better! Materials
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Groundhog's Day is an annual tradition held in Punxsutawney, PA on February 2. On this day, Punxsutawney Phil, comes out of his burrow on Gobbler's Know to predict the weather for the rest of winter. If he sees his shadow, there will be 6 more weeks of winter. If he doesn't see his shadow, it will be an early spring! This year will be Phil's 132nd prognostication or prediction. What will it be? This month's challenge relates to Phil and his shadow. Your challenge is to build a device that allows Phil to pop out of his burrow and when he is out, his shadow must be 10cm long. Your design does have some criteria and constraints. When Phil is in his burrow, he must be completely down in there. When he is popped out of his burrow, he must be fully popped. For example, if pressing down on a lever to pop Phil out, the lever must be pressed all the way not just to make the shadow 10cm long. The light being used should be in a fixed position. Testing of Phil should also be done in the same spot. Materials
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Last month the challenge was trying to keep things warm, but this month the challenge is going to try to keep things cold! The weather sure does change a lot in New York from cold and freezing to above freezing and sunny during the winter. When it was snowy, you might have built a snowman, but now it might have melted. What if you wanted to keep it around? Do you think you’d be allowed to put it in the freezer? We are not going to try and build a large enough freezer for a snowman, but a cooler that will keep ice or snow from melting for a period of time if you brought it inside. Your cooler does have some criteria and constraints. Only the materials provided can be used in your design. You are only allowed to use a certain amount of materials per group noted in the list. The cooler has to be one that is easy to open to get the snow or ice out. Materials
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Do you eat more soup in the summer or winter? Do you eat more ice cream in the summer or winter? Do you drink more hot chocolate in the summer or winter? Do you drink ice cold beverages more in the summer or winter? Why do you think this? As the seasons change, our clothes change and so do our diets! In the summer, our diets include colder things to help cool us down. In the winter, our diets include more warmer items to help keep us warm. In the summer, we use coolers and ice to keep things cold. In the winter, what do we use to keep things warm? If you can’t think of something, well that means it’s time to engineer! Your challenge this month is to build a device that fits around or over a paper cup to help keep the contents inside warm for a longer period of time than normal. Your device does have some criteria and constraints. Only the materials provided can be used in your design. The materials can be placed anywhere outside of the cup but not on the inside of the cup. It can have a cover over the top, but the cover needs to be able to fit the thermometer inside and removable so liquid or food can be put in the cup. Materials
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It's the month of Thanksgiving and what is better than pumpkin pie for dessert? But where do those pumpkins come from? How are they picked from the patch? When picked, how do they not get damaged? Can they still be used if they get damaged? Is there a way for them to be picked without being damaged? Enter the design challenge. Your goal is to design and build a device to harvest a pumpkin patch efficiently (without damaging the pumpkins and by how many turns it takes to harvest the entire pumpkin patch). Your pumpkin picker does have some criteria and constraints. The device must be used to completely pick up the pumpkins (not allowed to touch them with your hands), but you can manipulate the device with your hands. You can not damage the pumpkins (scratches, dents, holes, etc.). You can pick up as many pumpkins as possible with one turn. Efficiency is measure by how many times it takes you to clear the patch and place them in a bin combined with your time. Finally, make sure the pumpkin patch is set the same for every trial. Materials
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Do you know what a catapult is? It is an ancient device used for throwing large rocks. It was mostly used as a weapon to throw things either very far or very high up over walls during times of war. How do you think people built catapults? What are some of the main components to a catapult? How did they make them accurate? These are questions you might need to think about since this month’s challenge is to build a catapult. You won’t be using it for rocks or as a weapon, but to fling a popular candy of the month, candy corn. Your challenge is to build a catapult that either throws the candy corn the furthest distance, the highest, to be the most accurate, to knock down the most items. Bonus points for making one that does well in more than one category. Your catapult does have some criteria and constraints. Only the materials provided can be used in your design. While testing out your device, there can only be three trials for each category. Each contraption has to be built with at least four different materials. Finally, the catapults should all be tested fairly when launching. Materials
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