Specification Brand : FYYKXWD BulletPoint1 : * Product structure: It is composed of a bracket, a rotating magnet (strong magnetic) aluminum frame and a thimble that can turn the aluminum frame. BulletPoint2 : * It shows that the magnetic field rotates relative to the conductor, and an induced current will be generated in the conductor. The induced current will cause the conductor to be subjected to the ampere force. BulletPoint3 : * Demonstrator of the principle of rotating magnetic field, demonstrating the working principle of the motor.It will engage and provide hours of fun exploration and learning for your child one. BulletPoint4 : * Can help you to learn accurately and effectively, to better understand and master.save learning time and improve learning efficiency. BulletPoint5 : * Size: base length 300*width 200mm*total height 230mm.Great for school teaching tool, learning display, and collectibles, also will be a great addition to your lab supplies. Color : One Color ExternallyAssignedProductIdentifier : 8258518050754 ItemName : Rotating Magnetic Field Principle Electromagnetic Induction Demonstrator Electromagnetic Drive Demonstrator Principle Rotating Magnetic Field for Electromagnetic ItemPackageDimensions_Height : 1 centimeters ItemPackageDimensions_Length : 3 centimeters ItemPackageDimensions_Width : 2 centimeters ItemPackageQuantity : 1 ItemTypeKeyword : science-classroom-measurement-kits Manufacturer : FYYKXWD ModelNumber : FYYKXWD NumberOfBoxes : 1 NumberOfItems : 1 PartNumber : FYYKXWD ProductDescription : Specifications:
Condition: 100% Brand New
Color: as Shown in the Picture
Quantity: 1 Size: base length 300*width 200mm*total height 230mm
Material: metal + strong magnet
Weight: net weight about 2600g
Use for:school,experiment equipment
Instructions 1. Put the aluminum frame on the thimble so that it can turn freely. 2.Turn the magnet through the rocker and gradually increase its speed, then the aluminum frame will rotate with it. When the magnet rotates in the opposite direction, the aluminum frame rotates in the opposite direction, indicating that the magnetic field rotates relative to the conductor, and an induced current is generated in the conductor. The induced current causes the conductor to be subjected to ampere force, which causes the conductor to move (impedes relative movement).
Note: 1.Light shooting and different displays may cause the color of the item in the picture a little different from the real thing. 2.The measurement allowed error is +/- 1-3cm. Size : One Size UnspscCode : 31162400