Analytical balances and ohaus scales have a long history of being used in the field of chemistry. These devices are often used for weighing such things as chemicals, pharmaceuticals, and heavy metals. What makes these devices so important is their ability to provide accurate readings so that your lab tests will produce high quality results.

An analytical balance is a scientific instrument used to measure small incremental changes in mass or weight. Analytical balances are also known as a balance, precision scales, or weighing machine.

Ohaus scales are a type of weighing scale that are widely used in the commercial and industrial world. They are named after their creator, Carl Ohaus, and are made up of three metal plates that move in unison along a graduated scale. This allows for precise measurements to be taken with little error.

There are many benefits to using Ohaus scales. First and foremost, they are accurate. This means that measurements can be taken with little error, which is important in the commercial world where precision is key. Additionally, Ohaus scales can be mounted on a wall or desk, so they're easy to use. And lastly, they're affordable. This makes them a great option for businesses of all sizes.

Analytical balances and ohaus scales are both precision tools that help to ensure accuracy in weighing and measuring. Both instruments use a beam balance or a linear scale to measure weight, and both can be used for a variety of purposes, including chemical analysis, food preparation, and general lab work. How do they work?

The beam balance is essentially a metal bar with two ends connected by a pivot. The user places the object to be weighed on one end of the beam, and measures the distance between the other end of the beam and the object. This measurement is then used to calculate the weight of the object.

The ohaus scale is similar to the beam balance in that it uses a metal bar with two ends connected by a pivot. However, the ohaus scale has an additional feature called a gage wheel. The gage wheel has markings that correspond to specific weights, and as you move the object across the scale, the gage wheel will rotate and register the weight of the object. This makes it easy to determine how much weight is present on each side of the scale.