You can measure the mass of your specimen, or the number of matter in it. If you are talking about weight it is not possible, because weight is gravity's effect on that specimen.
discriminating possible and profiable
When observing specimens under laboratory conditions, the frosted or matte side of the mirror is typically the best to use. This side diffuses light and reduces glare, allowing for clearer visibility of the specimen. The smooth, reflective side can create harsh reflections and distortions, making it less effective for detailed observation.
The maximum temperature possible for a substance under extreme conditions is determined by its melting point or boiling point, which can vary depending on the specific substance. In general, temperatures can reach thousands of degrees Celsius under extreme conditions.
The things you look at under a microscope are called specimens. These specimens can be a variety of materials, such as cells, tissues, or microorganisms.
when you drop an identical object in different gravitational conditions it will not have a similar acceleration because the gravity are different.
Yes, if stored under poor conditions
True
Specimens are stained in sterile water to prevent contamination of the sample, which could affect the staining process and lead to inaccurate results. Staining in sterile water helps maintain the integrity of the sample and ensures that the staining procedure is carried out under controlled conditions.
RAWR
No, specimens are not put on swings before being looked at under the microscope. Specimens are typically prepared on slides using various techniques such as staining or fixing before being placed under the microscope for observation. Swinging a specimen would not aid in microscopy analysis.
Yes, it is possible to write off childcare as a business expense under certain conditions.
When the same objects are dropped under different gravitational conditions, such as on the Moon or Mars, they will fall more slowly due to the lower gravity. On the other hand, if objects are dropped in higher gravitational conditions, like on Jupiter, they will fall more quickly due to the stronger gravity. This is because the force of gravity is directly related to the mass of the celestial body; more massive bodies have stronger gravitational forces.