Star clusters are ideal for figuring out certain things of stellar evolution because every star in a cluster is made of basically the same material and therefore has the same composition, they are basically at the same distance from the earth, and they all basically move the same way.
This is ideal because it can be tough to determine whether some stars are closer or farther away (brightness would make you think that a brighter star is closer but this is not always the case) but looking at 2 stars in the same cluster, if one looks brighter, it actually is!
These clusters make it easy for astronomers to see how stars grow up!
Star clusters are advantageous for stellar studies because they contain stars that are all roughly the same age and composition, simplifying comparisons and analyses. Additionally, by studying clusters at different stages of evolution, astronomers can gain insights into stellar lifecycles and evolutionary pathways. The dense environment of star clusters also allows for interactions between stars, providing valuable data on stellar dynamics and evolution.
The Hertzsprung-Russell diagram helps scientists study the properties and evolution of globular clusters by showing the relationship between a star's brightness and temperature. This diagram allows researchers to classify stars in globular clusters based on their stage of evolution and helps them understand how these clusters change over time.
It is extremely light and non-flammable so ideal for balloons. It is an ideal carrier gas for Gas Chromatograhy for laboratories all over the world. At certain pressures when scuba diving it is used with oxygen to breathe.
Plato did not contribute directly to the theory of evolution as it was developed centuries after his time. However, his philosophical ideas, such as the concept of ideal forms and the importance of reason and knowledge, continue to influence the way we think about the natural world and the development of scientific theories.
Evolution of animal and plant species helps to explain mutations in geographical spaces as well as population density. An example would be the lack of human and plant growth in Antarctica due to extreme cold conditions. Human and plant tend to thrive in ideal conditions suitable for survival.
Some organisms possess non-ideal traits due to genetic mutations, environmental pressures, or random chance during evolution. These traits may not be advantageous for survival or reproduction, but they can persist in a population if they do not significantly impact an organism's ability to survive and reproduce.
Herbert Brook Workman has written: 'The evolution of the monastic ideal from the earliest times down to the coming of the friars' -- subject(s): Monasticism and religious orders
Edwin Grant Conklin has written: 'Problems of organic adaptation' -- subject(s): Adaptation (Biology) 'The embryology of Crepidula' -- subject(s): Crepidula, Embryology 'Biographical memoir of William Keith Brooks, 1848-1908' 'Man, real and ideal' -- subject(s): Human beings, Evolution, Philosophy, Science 'Evolution and the Bible' -- subject(s): Evolution, Religion and science
Physical balance is used in laboratories instead of beam balance because physical balance is more accurate and sensitive in measuring small quantities of substances. It also provides quicker and more precise results compared to a beam balance, making it ideal for scientific research and experiments where precision is key. Additionally, physical balance is easier to calibrate and maintain, ensuring consistent and reliable measurements.
Fartting is not ideal
There is no ideal personality.
No, the word ideal is not an adverb.The adverb form of the word "ideal" is ideally.