United Scientific Inertia Demonstrator

Name: United Scientific Inertia Demonstrator
Brand: United Scientific
SKU: VUSC-IDEM01
Price: 24.80 USD
Availability: InStock

SKU: VUSC-IDEM01

QTY:

Availability: In Stock

$24.80

Warranty, Shipping and Return Info

Warranty

All products are shippined directly from the Manufacturer come with a one (1) year warranty, except when specified in the description

Shipping Informtaion

This product ships directly from the Manufacturer
Product usually ships within five to seven business days
Expedited and international shipping not available at this time
For any additional information or special order requests please contact customer service here

Returns Information

AmScope offers a 30 day return policy from the purchase date of your oder. If the item does not meet your needs or satisfaction, please contct us within 30 days for an RMA (Return of Merchandise Authorization) number. Returns must be new, unused and repackaged in the original shipping materials in order to receive a full refund
Customer is responsible for the cost of shipping for returned products
Returns may be subject to a 20% restocking fee. Please ask us about this when you call to arrange your return

The Higher the Magnification - The More Detail You'll See

Magnification is the ability of your microscope to make small objects seem larger. As the magnification increases the area being viewed will be decrease is size but the detail of the area being viewed will improve.

Amscope microscopes come with multiple magnifications to aid you in finding the proper magnification for viewing each specimen.

Camera Connection Types

When comparing 2.0 and 3.0 there are few major differences. First the transfer rates. USB 2.0 offers transfer rates of 480 Mbps and USB 3.0 offers transfer rates of 4.8 Gbps - that's 10 times faster.

Camera Resolution

The most important factor in ensuring successful microscopic imaging is choosing the appropriate optics and camera for your application that gives you more data and higher image quality. When selecting a microscope camera, it is best to base your decision on the most important requirements for your microscopic observation.

Key Features

Durable inertia demonstrator for classroom use
durable inertia demonstrator works reliably every time and is a great improvement on traditional versions of this classic experiment
Experiment 1: A steel ball rests on a thin metal card on top of a pillar, and a spring-loaded catch is mounted next to the pillar. When the catch is released, a piston strikes the edge of the metal card sharply. The card flies out from under the ball, which remains in place on top of the pillar due to its large inertial mass. (Card is tethered to the aluminum base for easy recovery after the experiment.)
Experiment 2: The cord is pulled slowly and steadily. In this case, the ball and card fall off the pillar together.
Includes activity guide

This durable inertia demonstrator works reliably every time and is a great improvement on traditional versions of this classic experiment. A steel ball rests on a thin metal card on top of a pillar, and a spring-loaded catch is mounted next to the pillar. When the catch is released, a piston strikes the edge of the metal card sharply. The card flies out from under the ball, which remains in place on top of the pillar due to its large inertial mass. The card is tethered to the aluminum base for easy recovery after the experiment. In a second experiment the cord is pulled slowly and steadily. In this case, the ball and card fall off the pillar together. Includes activity guide. Approximate product dimensions are 5" x 3" x 2".

Description

This durable inertia demonstrator works reliably every time and is a great improvement on traditional versions of this classic experiment. A steel ball rests on a thin metal card on top of a pillar, and a spring-loaded catch is mounted next to the pillar. When the catch is released, a piston strikes the edge of the metal card sharply. The card flies out from under the ball, which remains in place on top of the pillar due to its large inertial mass. The card is tethered to the aluminum base for easy recovery after the experiment. In a second experiment the cord is pulled slowly and steadily. In this case, the ball and card fall off the pillar together. Includes activity guide. Approximate product dimensions are 5" x 3" x 2".

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