Fisher Science Education™ Triple-Beam Balance
Accurate, durable and easy to use. OHAUS Triple-Beam Balances are designed to demonstrate mass measurement concepts in the classroom and for everyday weighing.
OHAUS™ Harvard Trip Balances
Ideal for comparative weighing programs and centrifuge tube balancing. OHAUS Harvard Trip Balances employ a two-pan design based on the classic Roberval balance principle. They are commonly used to determine the difference in mass between two objects, rather than their absolute value.
OHAUS™ Triple Beam Balances
Accurate, rugged and dependable. OHAUS Triple Beam Balances have stainless-steel weighing pans and bearing covers which prevent rust and corrosion.
OHAUS™ Harvard Trip Balances
Ideal for comparative weighing. OHAUS Harvard Trip Balances with choice of single or double beam models provide many years of maintenance-free, comparative weighing using a known standard.
OHAUS™ Cent-O-Gram™ and Dial-O-Gram™ Balances
Support centigram accuracy and encourage student precision. OHAUS Cent-O-Gram and Dial-O-Gram Balance comes with three-point base, special floating bearing principle, and beam design which eliminates need for level adjustment.
OHAUS™ Triple-Beam Balances
Well-equipped to weigh solids, liquids, powders or even animals. Effective magnetic damping of OHAUS Triple-Beam Balances coupled with appropriate beam capacity reduces oscillation and speeds weighing process.
Rugged, all-purpose balance will hold up through years of use. SI Metric Manufacturing Elementary Balance is an all-purpose, durable, student-proof balance which has a molded construction of high-impact styrene.
OHAUS™ Heavy-Duty Solution Balance
Ideal for high-capacity weighings—offers 20kg capacity and 1g readability. OHAUS Heavy-Duty Solution Balance with sturdy construction enables balance to withstand harsh environments and constant use without sacrificing precision.
American Educational Products Equal Arm Balance
Students can calibrate precisely to within a few milligrams of accuracy
OHAUS™ Pull-Spring Scales
Designed to deliver reproducible results time after time, perfect for general weighing, force experiments, action-reaction demonstrations and much more. The Ohaus Demonstration Spring Scales offers a large faceplate for easy viewing.
OHAUS™ Triple Beam Pro Balance
Accurate, dependable and stylish with superior quality and durability. OHAUS Triple Beam Pro Balance is an ideal learning tool to help visualize mass measurement principles and to emphasize a hands-on learning approach.
OHAUS™ School Balance
Ideal teaching tool to introduce students to precision mass measurement. OHAUS School Balances measure small items such as paper clips, marbles and coins, as well as heavier objects such as books.
OHAUS™ Spring Scales: Pull Type
Designed to stand up to heavy student use and withstand sudden load releases without breaking. Mettler Toledo Pull Type Spring Scales are made from rugged shatterproof plastic and metal. They are color-coded for easy identification of capacity.
Thermo Scientific™ Shandon™ Digital Scale
Get accurate autopsy and pathology weight measurements with the Shandon™ Digital Scale.
OHAUS™ Harvard Junior™ Mechanical Balance
Unique design combines colorful, plastic two-pan balance with the durability and accuracy of the more expensive Harvard Trip Balances. OHAUS Harvard Junior Mechanical Balance incorporates precision-engineered metal beam and zero-adjust compensator.
OHAUS™ Spring Scales: Dial Type
Designed to stand up to heavy student use and withstand sudden load releases without breaking. OHAUS Dial Type Spring Scales have rugged shatterproof plastic and metal construction.
OHAUS™ Spring Scales: Demonstration Dial Type
Designed to stand up to heavy student use and withstand sudden load releases without breaking.
American Educational Products Color-Coded Spring Scales
Clear plastic tube allows students to see the action of the spring.
OHAUS™ Triple Beam Mechanical Balance
Accuracy and convenience of a toploading balance. OHAUS Triple Beam Mechanical Balance gives students hands-on experience through manipulation of the poises and attachment weights, as well as visualization of mass measurement principles.