clinostat (Meaning)
clinostat (n.)
An apparatus consisting of a slowly revolving disk, usually regulated by clockwork, by means of wich the action of external agents, as light and gravity, on growing plants may be regulated or eliminated.
Synonyms & Antonyms of clinostat
No Synonyms and anytonyms found
clinostat Sentence Examples
- A clinostat is a scientific instrument used to study the effects of gravity on biological organisms.
- Researchers often employ a clinostat to simulate microgravity environments in laboratory settings.
- The clinostat rotates specimens at a constant speed to nullify the influence of gravity on their orientation.
- Plants grown on a clinostat exhibit altered growth patterns compared to those in a normal gravitational environment.
- The use of clinostats in space research helps scientists understand how organisms adapt to weightlessness.
- Clinostats are invaluable tools for investigating physiological and biochemical responses to altered gravitational conditions.
- In space missions, clinostats play a crucial role in studying the effects of microgravity on human health.
- The design and construction of a clinostat require precision engineering to ensure consistent rotation.
- Biologists utilize clinostats to explore how microgravity affects cellular processes and gene expression.
- Advancements in clinostat technology contribute to our understanding of gravitational biology and its applications in space exploration.
FAQs About the word clinostat
An apparatus consisting of a slowly revolving disk, usually regulated by clockwork, by means of wich the action of external agents, as light and gravity, on gro
No synonyms found.
No antonyms found.
A clinostat is a scientific instrument used to study the effects of gravity on biological organisms.
Researchers often employ a clinostat to simulate microgravity environments in laboratory settings.
The clinostat rotates specimens at a constant speed to nullify the influence of gravity on their orientation.
Plants grown on a clinostat exhibit altered growth patterns compared to those in a normal gravitational environment.
