Cart 2 india

Specification
Brand : FYYKXWD
BulletPoint1 : * For the electromagnetic induction experiment of junior high school physics
BulletPoint2 : * Electrical induction phenomenon (single wire cuts to judge the magnetic line of force to generate current)
BulletPoint3 : * The effect of magnetic field on linear current (movement in the magnetic field of energized conductor)
BulletPoint4 : * Good for school teaching tool, learning display, and collectibles, also will be a great addition to your lab supplies.
BulletPoint5 : * Excellent Education tool for Students/teachers/professional use,preferred choice of experts.
Color : One Color
ExternallyAssignedProductIdentifier : 8258610002927
FcShelfLife : 365 days
ItemDisplayDimensions_Height : 0.31 centimeters
ItemDisplayDimensions_Length : 3.54 centimeters
ItemDisplayWeight : 0.09 pounds
ItemName : Electromagnetic Effect Phenomenon Physics Experimental Equipment Electromagnetic Induction Demonstrator - Electromagnetic Effect Phenomenon
ItemPackageDimensions_Height : 1 centimeters
ItemPackageDimensions_Length : 3 centimeters
ItemPackageDimensions_Width : 2 centimeters
ItemPackageQuantity : 1
ItemTypeKeyword : science-education-magnetism-kits
ItemVolume : 1 cubic_centimeters
Manufacturer : FYYKXWD
Material : plastic
ModelNumber : FYYKXWD
NumberOfBoxes : 1
NumberOfItems : 1
NumberOfLithiumMetalCells : 1
PartNumber : FYYKXWD
ProductDescription : Use
1. Oersted experiment;
2. The effect of field jumping on the linear current (movement in the magnetic field of the energized conductor)
3. Electromagnetic induction phenomenon (a single wire cuts and judges the magnetic line of force to produce a corresponding current)

Instructions
1. The Oersted Experiment
The experimental device is connected to the power supply and used, and the magnetic needle is immediately deflected by an angle when the switch is pressed, indicating that there is a magnetic field around the energized wire.
2. The effect of magnetic field on current
The experimental device, connect the power supply, press the switch, the rolling conductor will move, use the left-hand rule to determine the relationship between the direction of force on the conductor, the direction of magnetic force, and the direction of current

Note:
Before the experiment, polish the of the rolling conductor and the horizontal support with sandpaper to remove the oxide layer
ProductSiteLaunchDate : 2024-08-30T10:48:50.861Z
Size : One Size
SupplierDeclaredDgHzRegulation : not_applicable
UnitCount : 1
UnspscCode : 52140000