Many people use the terms scales and balances interchangeably, creating a bit of confusion. In this article, we examine the key distinctions between these two pieces of equipment and their ideal use cases. Keep reading to discover the differences between balance vs scale.
While both are, in essence, weighing machines, did you know they are not quite the same?
Understanding the technical differences between balance vs. scale is essential to find a weighing solution that works best for your purpose.
The most significant difference between a scale and a balance is that while the former measures the weight of an object, the latter measures the mass. In other words, a scale measures the force of gravity on an object; a balance measures the amount of matter present.
Differentiating between the two ensures accurate measurements and appropriate application in respective contexts.
In this article, let’s examine the key distinctions between these two pieces of equipment and their ideal use cases.
We will also see which might be the best for your application.
Balance vs Scale: What is the Main Difference?
While it is true that both weighing balance and a scale measure similar things, there are critical technical and practical differences between them; both instruments operate on different principles and have distinct applications.
A weighing scale operates based on the principle of tension or compression.
Modern electronic weighing scales measure weight using a load cell that generates an electronic signal proportional to the applied weight. The weight is then displayed on a digital or analog readout.
Some manufacturers refer to their products as ‘balance scale’ to highlight the potential discrepancy in terminologies.
On the other hand, a balance operates on the principle of moment balance.
In its simplest form, a weighing balance consists of a beam and a pivot, with pans of equal weight suspended from each end. When two objects of equal mass are placed on each pan, the beam remains horizontal.
Furthermore, the scale measures the weight of an object against a built-in reference, often calibrated against standard weights.
On the contrary, a balance compares the weight of an unknown object against a known weight or reference. The object’s unknown mass is determined based on the known mass.
So, as you can imagine, these differences make scales and balances quite different in principle and application.
Keep Reading: How to use a triple beam balance.
Understanding weighing scales
Let’s talk about the weighing scale and its different types when comparing balance vs scale. When you place an object on a scale, the load cells in it sense the force exerted by the object and convert it into an electric signal.
This signal is then processed and displayed as a weight reading. Depending on the design, weighing scales can use mechanical, spring-loaded, or electronic mechanisms to gauge and represent weight accurately. It is crucial to choose the right weighing solution for specific needs to ensure accurate and reliable measurements.
Types of weighing scales
Several types of scales available in the market differ in the internal mechanism of how they operate.
Here are some of the most common ones you can buy:
Spring or mechanical scales
These utilize a spring mechanism. The weight on the platform causes the spring to compress or extend, and a pointer indicates the weight on a calibrated scale.
While such scales are simple to use and durable, they are less accurate than their digital counterparts.
Digital or electronic weighing scales
These use electronic load cells to convert force into an electrical signal displayed digitally, making them a type of digital scale. People commonly find them in homes, kitchens, and many commercial settings.
They tend to be more sensitive, but their capacity is limited.
If you are looking for a precise and sensitive electronic scale, check out the Ohaus Explorer EX224 with a readability of 0.0001 grams.
Balance beam scales
Predominantly found in medical facilities, they consist of a beam with sliding weights, which, when balanced, give a reading of the weight.
Platform scales
Designed for heavy loads, these have a large platform and are often found in warehouses or industrial settings.
Scales are also often classified based on their use, such as kitchen, postal, and bathroom scales.
Understanding weighing Balance vs Scale
Typically, these instruments are found in labs and research facilities and operate onmoment balance. Balances use a beam with pans on either end. When equilibrated, the unknown mass equals the reference mass.
Mass balances measure the mass of an object by comparing it to a known mass, focusing on accuracy and small measurements, often using traditional equal-arm (double pan) balances.
Weighing balances, especially in laboratory settings, are designed to measure mass precisely.
Types of analytical balances
Developers have created various balances depending on the required accuracy and specific application. People use mass balances for precise measurements by comparing an unknown mass to a known mass.
Here is an overview of some commonly used weighing balances:
Triple Beam Balance
Features three beams with sliding weights, providing an easy method to adjust and calibrate the balance.
The Ohaus 710-T0 Triple Beam Balance, with a readability of 0.1 grams, is perfect for measuring solids, liquids, and even small animals.
Torsion Balance vs Scale
Uses a horizontal bar suspended on a thin wire. The rotation (torsion) of the wire indicates the mass.
Apart from these, balances are classified based on their end use, such as moisture balances to measure moisture in the soil and precision balances to measure small quantities of chemicals.
Balance vs scale, which one has better precision?
A balance measures weight by equilibrating the unknown object’s weight with known standard weights. This comparative method allows balances to achieve higher precision than weight scales, making them ideal for laboratory settings where precise measurements are essential.
In contrast, scales measure weight based on the force exerted on a spring or a load cell.
Although modern weighing scales have improved in accuracy and precision, temperature, humidity, and aging of mechanical components can still affect them.
Additionally, scales that rely on springs can experience degradation over time, leading to decreasing precision.
A well-maintained and calibrated balance generally has the edge over a weighing scale. It is particularly true for lab analytical balances, which can accurately measure up to four decimal places.
Balance vs scale, which one should I use?
The choice between Balance vs Scale largely depends on the specific requirements of the weighing task at hand.
People might find a weighing scale more practical for everyday applications, while they prefer precision balances for precise laboratory measurements.
An analytical balance is the right choice if you conduct scientific experiments, formulate precise mixtures, or work in a laboratory setting where measurements must be exact.
Conversely, a scale is sufficient for more general purposes like measuring ingredients in a kitchen, determining personal weight, or weighing packages for shipment.
Modern digital scales are accurate for most everyday needs and are usually more convenient and faster.
Understanding the technical differences between balances and scales is crucial to identify the best weighing solution for different applications.
You may also like: What is a Volumetric Flask: Sizes, Shapes, and Uses
Takeaway: Get high-quality balances and scales from Certified MTP
Both weighing scales and balances have their advantages and drawbacks.
Balances, with their precision-driven design, cater to scientific and research contexts, ensuring detection and quantification of even the smallest variations in mass.
In contrast, weighing scales, often quicker and more convenient, serve many everyday purposes, from the kitchen to the post office.
While they might not match the pinpoint accuracy of balances, modern advancements have made them impressively accurate for most applications.
Choosing the right weighing solution based on your specific needs is crucial to ensure optimal performance and accuracy.
Check out our extensive collection of weighing machines and scales if you need high-quality balances and scales. We have electronic and analog scales and balances in various capacities and readabilities.
