magnetic train science fair project

Magnetic train science fair project

Measure how the number of magnet "brakes" changes the stopping distance for a train sliding down a hill. Does a train without wheels sound crazy? How could a train possibly move along the tracks without wheels? Trains that hover just above the tracks are actually possible due to magnetic levitationor maglev for short.

With this kit you can experiment with levitating objects and construct your own maglev track. Build a magnetic track with strong but not too strong! Nd magnets and create a levitating train setup. The kit uses super-strong magnets that can be harmful if swallowed. Adult supervision is required during construction and operation. No superconductors or liquid nitrogen needed. Suitable for kids and adults alike; an easy introduction to magnetism.

Magnetic train science fair project

Problem - I will be designing and building a functioning magnetic train. I will also test if the more or less magnets put onto the train will make the train go faster. Hypothesis - I believe that I will be able to build the train and it will work properly and fully go through the copper wire and that the most magnets will make it travel faster. Gather all required materials - copper wire, magnets, and a AAA battery. Magnetic Train. Many years ago when the science fair first started for me I wanted to try this project but I decided to choose a different project. Now this year I decided to finally do this project. My project was to build a working magnetic train. I also wanted to test to see whether more magnets on the train would make the train move faster or slower. I predicted that the more magnets used would make it go faster because it would create a stronger magnetic field. I started my project by coiling the 18 gauge copper wire which proved to be very difficult. Although, after the wire was coiled the train itself was made with a battery and a specific amount of magnets.

This block will be your train car. Transportation Engineer.

Electricity science fair projects. Have you ever wanted to build a train that can float above a pair of magnetic tracks? This project will show you how to do just that! You will build a platform that floats above a pair of magnetic tracks, and can be gently pushed to one end or the other. You will need two magnet strips, a piece of wood shelving, a piece of Plexiglas, foam-core board, and ceramic magnets. This experiment demonstrates the like poles repelling principle of magnetics.

How do you take copper wire, a battery and magnets and make electric train? In this simple but awesome Instructable I'm going to show you that! Video tutorial. When you combine magnets, a conductor and movement you get electricity and when you combine electricity and a conductor you get a magnetic field. When you combine this magnetic field, with another magnetic field provided by the magnets you get movement! In step 2 I will first explain how the "train" works.

Magnetic train science fair project

One popular science experiment we are often asked about is the magnetic levitating train. We built a basic version of this experiment to highlight some of the challenges and solutions of a project like this. Of course, once you figure out the basic setup we've built here, you could let your imagination run wild and build some really cool tracks! This simple craft can help you understand the basic magnetic principles that go into MagLev trains. It's amazing that with the use of magnets, a train can be travel at over mph! In this article, we'll go through some basic track construction, as well as provide some challenges and of course some technical magnetic info! Materials needed: Neodymium magnets, Lego's or other building blocks , and superglue

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A cross-sectional diagram of the maglev train. This means they consist of many magnetic strips that alternate in polarity, as shown in Figure What would you Quantum Levitate? Maglev train track placed on an incline using some textbooks. Try this project to find out! This block will be your train car. Magnetic strips attached to the wooden block. I tested 1 magnet, 2 magnets, 3 magnets, and 4 magnets. Behavioral and Social Science. You will build a platform that floats above a pair of magnetic tracks, and can be gently pushed to one end or the other. These magnets push against two magnets that form the tracks. In this project, you used a stack of books to elevate one side of the track. You can use parts with different dimensions, but will need to adjust some of the spacing for your train accordingly see Figures 3 and 4 in procedure. After building, you will need to make adjustments to get it working perfectly. In the case of a maglev train, this magnetic force is used to push against the train's weight.

Measure how the distance between a levitating train and the tracks changes as you add weight to the train.

Attention to detail and patience are needed for this project. Many years ago when the science fair first started for me I wanted to try this project but I decided to choose a different project. These trains use powerful magnets to stay in the air. It is important for the plastic angle pieces to be spaced just barely farther apart than the width of the wooden block about 40 mm. After I had finished the building portion of my project I started to do the tests. Figure 4. An example data table. Two plastic angle pieces are placed parallel to each other on a cardboard sheet with a 40 millimeter gap between them. A: If your train car is sitting flat on the tracks the magnet strips are touching each other , there are several possibilities. Figure 1. Discover the incredible power of lemons! This means they consist of many magnetic strips that alternate in polarity, as shown in Figure Adult supervision is required during construction and operation.

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