Top mechanical balances gistgear gas water heater reviews 2012

The Ohaus mechanical triple beam balance has a capacity of 610g and an accuracy of 0.1g (also called readability). This balance is operated by positioning the 10g, 500g, and 100g sliding weights (also called riders or poises) along the three notched, tiered beams. Magnetic damping speeds weighing, causing the beam to come to rest quickly without affecting sensitivity or accuracy, while the spring-loaded zero adjust compensator allows fine adjustments for accurate readings. The weighing platform is top loading, comes in a variety of shapes, sizes, and materials, and is easily accessible for unobstructed placement of samples. The rugged metal base and beams provide a durable foundation for use in the classroom or laboratory, and stability when weighing. This balance is manufactured to ISO 9001:2000 standards.

Balances are measuring instruments used to determine the mass of an object, while scales are used to measure the weight of an object. The measurement results from balances are generally considered to be more precise compared to results from scales. Mechanical balances are the simplest type of balance, and use a lever and slide to indicate the measurement. Conventional balances are commonly used in offices, the jewelry industry, and in kitchens, and display results digitally, but are less precise than analytical balances. Analytical balances measure to a high degree of precision and accuracy (0.0001g or better), and display results digitally. These balances have a cover with doors to prevent dust and airflow from affecting the measurement. Moisture balances analyze moisture content in a material sample, using infrared or halogen heat sources to dry the sample and then calculate the moisture content from the before- and after-drying weight, and display results digitally, on the balance, or transfer the information for display on a computer.

The Ohaus TP2611 Triple Pro mechanical triple beam balance has a capacity of 2610g and an accuracy of 0.1g (also called readability). The balance is operated by positioning the 10g, 500g, and 100g sliding weights (also called riders or poises) along the three notched, tiered beams. It has a spring-loaded tare adjustment to prevent accidental changes to the setting and obtain precise results, and a rod and clamp assembly for below-balance weighing to determine specific gravity. The built-in storage lock secures moving pieces to prevent damage during transport and storage, and an integrated security slot for locks and cables safeguards the balance from unauthorized use or theft. A covered compartment at the base of the balance stores the included three-piece mass set when not in use. The stainless steel weighing pan resists corrosion from spills of most sample materials. The balance is manufactured to ISO 9001:2000 standards and, when used according to manufacturer s recommendations, it is covered by a 10-year warranty against defects in workmanship or materials.

Specifications Maximum capacity 2610g Readability 0.1g Weight of scale 3 lb Units of measurement Gram (g) Weighing pan, W x D 14.73 x 14.73cm Balance dimensions H x W x D 22.86 x 50.8 x 15.24cm Front beam configuration 10g poise, 0.1g increments Middle beam configuration 500g poise, 100g increments Rear beam configuration 100g poise, 10g increments Mass configurations (1) 500 g, (2) 1kg H is height, the vertical distance from the lowest to highest point; W is width, the horizontal distance from left to right; D is depth, the horizontal distance from front to back.

Balances are measuring instruments used to determine the mass of an object, while scales are used to measure the weight of an object. The measurement results from balances are generally considered to be more precise compared to results from scales. Mechanical balances are the simplest type of balance, and use a lever and slide to indicate the measurement. Conventional balances are commonly used in offices, the jewelry industry, and in kitchens, and display results digitally, but are less precise than analytical balances. Analytical balances measure to a high degree of precision and accuracy (0.0001g or better), and display results digitally. These balances have a cover with doors to prevent dust and airflow from affecting the measurement. Moisture balances analyze moisture content in a material sample, using infrared or halogen heat sources to dry the sample and then calculate the moisture content from the before- and after-drying weight, and display results digitally, on the balance, or transfer the information for display on a computer.

Ohaus Harvard Trip Mechanical Single Beam Balance without Tare 2000g x 0.1g. Designed for use in a laboratory or classroom. Based on the classic Roberval balance principle, the Harvard Trip balance allows the determination of the difference in mass (rather than absolute value) between two objects, these balances come equipped with built-in sliding masses. Harvard Trip balances are known for their accuracy and durability. With a two-pan design based on the classic Roberval balance principle, Ohaus Harvard Trip balances feature the additional advantages of magnetic damping, beams with sliding weights and a variety of weighing platforms. Ohaus Harvard Trip balance series are precision weighing instruments, designed to provide years of service with virtually no maintenance. Featuring single weighing unit and application mode. Angled beams and pointer are easy to read, and help reduce operator errors. Highly versatile and rugged. Special floating agate bearing, counter balancing knob provides quick zeroing and stays in position. Construction: Metal base and beam, stainless steel pan, hardened steel edges. Weighing units: Gram. Application mode: Weighing. Shipping weight: 8lbs. Capacity: 2000g. Readability: 0.1g. Pan size: 6" dia. Top beam calibration: 10g x 0.1g. Per each. Ohaus #: 1450-SD.

The Ohaus mechanical triple beam balance has a capacity of 610g and an accuracy of 0.1g (also called readability). This balance is operated by positioning the 10g, 500g, and 100g sliding weights (also called riders or poises) along the three notched, tiered beams. Magnetic damping speeds weighing, causing the beam to come to rest quickly without affecting sensitivity or accuracy, while the spring-loaded zero adjust compensator allows fine adjustments for accurate readings. The weighing platform is top loading, comes in a variety of shapes, sizes, and materials, and is easily accessible for unobstructed placement of samples. The rugged metal base and beams provide a durable foundation for use in the classroom or laboratory, and stability when weighing. This balance is manufactured to ISO 9001:2000 standards.

Balances are measuring instruments used to determine the mass of an object, while scales are used to measure the weight of an object. The measurement results from balances are generally considered to be more precise compared to results from scales. Mechanical balances are the simplest type of balance, and use a lever and slide to indicate the measurement. Conventional balances are commonly used in offices, the jewelry industry, and in kitchens, and display results digitally, but are less precise than analytical balances. Analytical balances measure to a high degree of precision and accuracy (0.0001g or better), and display results digitally. These balances have a cover with doors to prevent dust and airflow from affecting the measurement. Moisture balances analyze moisture content in a material sample, using infrared or halogen heat sources to dry the sample and then calculate the moisture content from the before- and after-drying weight, and display results digitally, on the balance, or transfer the information for display on a computer.