HEEPDD Newtons Cradle 5 Pendulum Balls with Acrylic Stand Science Physical Model Stress Relief Toy for Home Office Desktop Decorative Ornament Gift
|Ships FREE with $25+ order|
|Gift wrap is available|
1 to 3 business days
Expedited delivery available.
- Newton's Laws of Motion---This Newton's cradle balance ball toy is a good practice of physics in action demonstrates the principles of kinetic energy and conservation of momentum. Pull one or more of the balls, release them and the same number of balls will swing on the other side.
High Quality Material—Made of high quality Acrylic bracket solid steel ball good vertical sense strong force when stressed. Long time working after one push and dependant on the resistance induced by air and friction. Size: 16 x 11.5 x 8.5cm / 6.3 x 4.53 x 3.35in. Stress Release—Small volume will not occupy too much space on your desk. Elegant decor and stylish design make it a great desk decoration for your bedroom or office. Suit for both kids and adults excellent for killing boring time and stress release. Manufactured by HEEPDD. Multi Function—This product has educational and fun benefits. Use it as a science aid in demonstrating physics principles in the classroom or as a toy. Because of its various funny way of playing every kids are very easy to be attracted by newton's cradle. A good gift for a child friend's birthday Christmas etc. Quality Guarantee—We supply 1 year warranty 30 days money back 7×24 hours email support. If you have any problem please don't hesitate to contact us we will try our best to solve it for you. Newton's Laws of Motion—This Newton's cradle balance ball toy is a good practice of physics in action demonstrates the principles of kinetic energy and conservation of momentum. Pull one or more of the balls release them and the same number of balls will swing on the other side.
Customers Also Bought
|Quantity Available in Stock||24|
|Dimensions of Package||0x0x0|
|Manufacturer Part Number||HEEPDDc6fmrtkdop|
|Amazon ASIN Code||B083WJJ1YG|
|Packaged Product Weight||0.7|