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Solar bank7. Online Project And Kit. Make Silk thread from Cocoons. All the projects related to the science are also available. Robo Working model projects Models for Science Projects. Quick Delivery, good products.
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Photo Credits. Learn how to build. Then, bend the sides down to form the propellors of your windmill. Straighten and flatten the blades with a hammer. Sprinkle about a cup or two of water into the boxes and watch irrigation do its work. Add a photo Upload error. Dab a dot of glue on the center of the pinwheel and adhere the corner. Author Working model projects 16 Working model projects Updated: September 11, Unanswered Questions. The purpose of this project is to discover different ways to produce Biogas through alternate sources by using our local resources. Method 3.
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- Making a science project that is just a visual demonstration of some scientific principal can get boring.
- Some examples of working models for science projects include a pinhole camera, a hovercraft and a baking soda volcano.
- Making a working model of science project which is just a visual demonstration of some scientific principles are boring.
- Harvesting solar energy allows for the use of cooking meals, charging both large and small batteries or drying clothes.
Working of Human ear Sound Science Project. Make a model to show how reflex arc works Biology Projects. Geometry Board to understand properties of circle Math Projects. How are Ionic Compounds formed? Balancing of valency. Make plant and animal cell model using simple materials Science Projects. Verify laws of reflection of light Build a model to demonstrate Peristence of Vision.
Demonstrate working of valves in the human heart School Science Projects. Make Silk thread from Cocoons. Build a rain guage to measure rainfall School Science Projects. Build mini Projector and a model to demonstrate reflection of light in curved mirrors Light experiments. Make a model to prove Pythagoras Theorem Math Projects. I really liked the hydraulic brake DIY kit.
It's so complete.. I used this approach of brainstorming and mind maps in my engineering and now I am available this to my children, nieces and nephews through the materials of edufields. Excellent job by Butterfly Team A good platform for the children to learn science in a creative way Good work team Butterfly!!! All the products that i purchased were loved by my kids and me too..
Worth the Money for the quality-Interactive, Educative and Creative I had ordered this for my 7yr old nephew as a birthday gift. The delivery was very fast, I placed an order on Monday, it reached on Wednesday, though it says working days.
Packaging was good. Quality of the product is definitely good for the money paid. Thank you. I had placed an order on Saturday afternoon after 2pm which is after their 1 pm quick delivery cut off time.
And I needed it to be delivered latest by Monday to a friend's place in Navi Mumbai for her son's three ceremony on Monday. Guess what???!!! They delivered it on Sunday itself!!! That's what u call customer "Wow" Thank u for responding so fast to my request. The kit is also very educating and involving. My friend's son loves it and sat with through the weekend.
Mother of 8years old boy my son loves these all kits and all packing is also good all parts are easily accessible by kids they don't need help at all procedures are well explained Thank you for wonderful kits. Excellent kit for kids to learn. Probably the age should be higher.
Not sure for 9 years. Instructions have some gaps. They need to be corrected. Additional magnets must be provided since there are many experiments in one. Overall a good initiative and helpful for kids since i did not have in my days.
Cost can be lower. The book is very good Very useful for revision. However, there are mistakes in each chapter Also, the way in which topics are arranged is random.
There is no continuum in the arrangement of topics. For example, in the middle of mechanics, suddenly the next chapter is optics and then suddenly it is current electricity Kits are excellent.
Its worth to the price. Students can easily understood the concept with help of activities n manual in the kit. The service was really good I have given the reference to a couple of teachers who are interested to buy the same. All the best. Thanks to Butterfly field for creating such nice product. This product help me to revise big chapters within some minutes which save my valuable time. I come to know about this books through one of pace old student and I ordered it for my son. Good book to revise before exams, saves time especially for Chemistry where there is lot to remember.
Its a very good activity for science fairs. My daughter made the model, played and demonstrated it to everyone. Keshav definitely enjoys all the projects that he is involved till date. They also get to explain the projects and the underlying concept.
Learning by doing and getting a chance to apply that they learn are both helpful for any child. Thanks for your thoughtfully designed projects. The activity is really excellent My daughter was explaining those modules to neighboring kids of other schools. Electroplating is coating a cheap metal with costlier metal.
Before i always used to think - how can we coat metals. Thanks for giving us this wonderful project. I congratulate the team of butterfly fields for this good ideas. Both my kids are showing much interest in butterfly fields activities n it's very useful in learning.
Whenever he is getting the butterfly fields kit, Rishikesh is really excited and after coming to home he is explaining it very enthusiastically, learning by doing in which children understands the concept very easily and they will never feel bored by this way of learning and tons of thanks for the founder of this butterfly kit for taking the science practicals to the next step which is so easy and the exercise inside the book also very much related to the practical life, which makes the child understanding better.
Since the time he brought it home totally engrossed in it. He is so much interested. Thanks for such initiative and giving children on hand experience. This is for the first time I have ever witnessed such activities. Skip to content. Select your Grade. Grade 1 Videos. Grade 2 Videos. Grade 3 Videos. Grade 4 Videos. Grade 5 Videos. Grade 6 Videos. Grade 7 Videos. Grade 8 Videos. Grade 9 Videos. Grade 10 Videos. Are you searching for science projects.
Post Your Query. Quick View. Out of stock Quick View. Tonmoy Mukherjee. Organic part is better but physical and inorganic needs some additional details.
Excellent Projects with explanation. Ranjitha Balakrishna. The condition of the book was good much better than I expected. Nice book. Good books for revision. Timely delivery. What we saw what we got.
She specializes in writing about religion, technology and solar concepts, and her articles appear on various websites. Pay particular attention to sanding the edges. Attach the straw to the cork. Fill the bottle partway with water and a few drops of dish detergent. Simply fill two flat, shallow boxes about three fourths of the way full with loose soil. Building a working scale-model of a windmill is a great craft project for school or just for fun!
Working model projects. Potato Light Bulb
One of the easiest projects that you can do for a science project is to make a working volcano. To make one of these, simply make a mock volcano out of mud, dirt, or any other workable material and leave a hollowed chamber in the middle with a hole coming out the top.
You can furnish the volcano with any embellishment that you want, such as trees, plants or even villages. For the volcanic eruption, mix two cups of vinegar, two drops of red food coloring, and one cup of starch and pour it into the hollowed out section of the volcano. Then, pour two table spoons of baking soda into the hole and watch the eruption take place. This project demonstrates the electrical currents in everyday produce such as a potato. Gather a potato, a copper wire, a metal nail and a light bulb.
Skin the potato and insert the copper wire into one end and the nail into the other end. Then, wrap the copper wire around the nail, leaving one end sticking outward. Then, simply touch the wire to the light bulb and watch the magic of electricity. You might need to use several potatoes. You can demonstrate irrigation simply without too many resources for a working science project.
Place the tin can on the ground and gently tap each blade until it is flat. Sand the tin can. Keep your gloves on and grab the sandpaper. Slowly run the paper over the front and back surface of the can.
Pay particular attention to sanding the edges. Spray paint the tin can. Spread newspaper or cardboard on the ground. Place the tin can on the covered surface.
Put on your protective mask. Spray a thin layer of paint over the blades and center of the tin can. Allow the paint to dry before applying 2 coats of polyurethane spray. Position the wooden dowel underneath the tin can.
Retrieve the dowel. Lay the tin can windmill on top of the wooden dowel. Nail the center of the blades to the dowel. Hold the wooden dowel in place—ask a friend or an adult to help. Tap a nail through the center of the tin can and into the wooden dowel. Wiggle the nail around to create a larger hole. This will allow the blades to turn. Method 3. Wash and dry the milk jug. Wash the milk jug with soapy water. Rinse it out with clean water several times.
Leave it to dry upside down over a towel. Fill the milk jug with gravel. Once dry, flip the jug over.
Measure out 2 cups of gravel—dried beans would work too. Carefully pour the gravel into the milk jug. Poke 2 holes through the milk jug. Retrieve your sharp pen or pencil. Place the sharp end of the writing instrument halfway up the side and in the center of the jug. Poke it through 1 side and out the other to create 2 parallel holes. Attach the straw to the cork. Push 1 end of the straw through the middle of the wine cork.
Make sure it is a tight fit! If you straw is made of soft plastic, you may need to carve out a bit of the cork in order to insert the straw. Insert the straw and attach the pinwheel. Push the end of the straw without the cork through holes in the base. Use a paperclip, or glue, to attach the pinwheel to the end of the straw without the wine cork. Make sure the pinwheel can spin freely without falling off. Attach a paperclip to a string and tie the string to the wine cork.
Cut a length of thread between 24 and 32 inches long. Tie one end around the wine cork. Attach the other end to the second paper clip. Blow on the pinwheel, set it outside, or place it in front of a fan and observe what happens to the paperclip! You can easily make a windmill with these steps.
Cut out two rectangles and paste them on top of each other like a cross shape. Easily make a body of a windmill with a hexagon and polygons extending down from the sides of the hexagon. Use a sharp object to make a hole in the middle of the cross section of the fan. Use a motor, battery in a battery holder , switch and wires to connect them all together. The order does not matter. Figure out this circuit for it is exceptionally easy; just connecting it all. Yes No. Not Helpful 18 Helpful Not Helpful 26 Helpful You will need a DC Motor of 6 volts or above.
Any motor below 6 volts won't light up the LED or whatever you have connected. Not Helpful 6 Helpful 1. Unanswered Questions. Answer this question Flag as Flag as What should I do if I don't have a motor? How do I make a working model of a windmill if I don't have a motor?
To Study the Phenomenon of Electromagnetic Induction. Detecting the Coriolis Effect in a Hose. Analysis of Voice Frequency across Ethnic Identities. To Study the Variation of Electrical Resistance. Study of Diffusion of Solids in Liquids. A New Perspective with a Digital Pinhole. Effects of Rotational Inertia on a Fastball. Photometric Study of Eclipsing Binary Stars. Study of the Effect of the Curvature of Spacetime.
The Mathematics of Sympathetic Vibrations. Effectiveness of Recycled Materials as Thermal Insulation. Quantifying the Effect of Skyglow on the Visibility of Stars. Frequency Relationship of Notes in Musical Harmony.
Radioactive Attenuation and the Inverse Square Law. Testing Sound Decay in Different Gasses. Safely Thawing Meat Used while Backpacking. Determining the Type of Particle in an Air Sample.