Ultramicrobalance definitions
| Word backwards | ecnalaborcimartlu |
|---|---|
| Part of speech | Noun |
| Syllabic division | ul-tra-mi-cro-bal-ance |
| Plural | The plural of ultramicrobalance is ultramicrobalances. |
| Total letters | 17 |
| Vogais (5) | u,a,i,o,e |
| Consonants (7) | l,t,r,m,c,b,n |
What is an Ultramicrobalance?
An ultramicrobalance is a highly sensitive weighing instrument used to measure the mass of very small samples. It is designed to provide measurements with extreme accuracy, often capable of weighing samples as small as several micrograms.
How Does an Ultramicrobalance Work?
Ultramicrobalances operate on the principle of the electromagnetic force compensation. They incorporate a high-resolution load cell and sophisticated electronics to detect even the slightest changes in mass. These devices are typically enclosed in a draft shield to protect against any external influences that could affect the measurement.
Applications of Ultramicrobalances
Ultramicrobalances are essential tools in various fields such as pharmaceuticals, chemistry, and materials science. They are used to measure the mass of tiny quantities of substances for research, quality control, and development of new materials.
Features of Ultramicrobalances
Accuracy: Ultramicrobalances offer high precision and accuracy in weighing small samples.
Sensitivity: These instruments are extremely sensitive, capable of detecting minute changes in mass.
Overall, ultramicrobalances play a crucial role in advancing scientific research and technological development by providing accurate measurements of small quantities with exceptional precision.
Ultramicrobalance Examples
- Scientists use an ultramicrobalance to measure the mass of tiny particles with high precision.
- The ultramicrobalance is essential in pharmaceutical research for weighing minute quantities of ingredients.
- Forensic laboratories utilize an ultramicrobalance to analyze trace evidence found at crime scenes.
- Chemists rely on an ultramicrobalance to determine the purity of substances in their experiments.
- Researchers in nanotechnology use an ultramicrobalance to characterize nanomaterials.
- Food scientists employ an ultramicrobalance to measure additives in food products at the molecular level.
- Aerospace engineers utilize an ultramicrobalance to weigh lightweight materials used in aircraft construction.
- Environmental scientists use an ultramicrobalance to detect pollutants in the air and water.
- Geologists rely on an ultramicrobalance to analyze samples of rocks and minerals.
- Medical researchers use an ultramicrobalance to study cells and proteins at the microscale.