i dont no
Because it's too general, for example, grouping invertebrates together would put a squid an a cockroach together, both of which are vastly different species from each other
An asterism, which is a grouping of stars that form a recognizable shape.
Crystals are easy to classify because the minerals that they contain are easily identified. One example of this would be emeralds. Another example of a crystal is a diamond.
A natural disaster! At least that's how Farmers Insurance, the Federal Government, Environmental Science 101, Red Cross, and SimCity classify it.
Scientists often divide fungi into four groups: club fungi, molds, sac fungi, and imperfect fungi,Each type of fungi is classified based on the way it reproduces. The way that these fungi reproduce is difficult to understand and they are hard to classify into what would be called 'normal' sexual reproduction.
A tercet is a grouping of three lines of poetry. A good example of a tercet would be a haiku, such as "This poem is an example," "of a great tercet," "a grouping of three fine lines."
Because it's too general, for example, grouping invertebrates together would put a squid an a cockroach together, both of which are vastly different species from each other
We will classify this new species as a mammal.How do you classify this, Mister Burns?
Grouping stars by brightness
a muscle. Tissue is any grouping of cells.
Here is an example. Car, truck, van, bus, taxi, ambulance, hearse, limousine, and SUV are classifications of "vehicle." You can classify just about anything.
scientists classify organisms into groups based on internal and external features.
Obviously, there are an infinite number of ways you can classify numbers.For example, you can classify positive and negative numbers; integers and non-integers; rational and irratinoal numbers; real numbers and complex numbers.Obviously, there are an infinite number of ways you can classify numbers.For example, you can classify positive and negative numbers; integers and non-integers; rational and irratinoal numbers; real numbers and complex numbers.Obviously, there are an infinite number of ways you can classify numbers.For example, you can classify positive and negative numbers; integers and non-integers; rational and irratinoal numbers; real numbers and complex numbers.Obviously, there are an infinite number of ways you can classify numbers.For example, you can classify positive and negative numbers; integers and non-integers; rational and irratinoal numbers; real numbers and complex numbers.
Classifying something involves categorizing or grouping items based on shared characteristics or properties. The goal is to simplify complex information, make it easier to understand and organize, and identify patterns or relationships among different items.
An asterism, which is a grouping of stars that form a recognizable shape.
The Biological Levels of Classification from largest grouping to smallest grouping are: Domain Kingdom Phylum Class Order Family Genus Species A scientific name of an oganism contains the genus and the species. For example,Acer Rubrum is a scientific name for 'Red maple' . 'Acer' is the genus while 'Rubrum is the species.
1.1 Why classify?"The purpose of any classification is so to organize our knowledge that the properties ofobjects may be remembered and their relationships may be understood most easilyfor a specific objective."The process involves formation of classes by grouping the objects on the basis of theircommon properties."In any system of classification, groups about which the greatest number, most precise,and most important statements can be made for the objective serve the purpose best."[9]Classification helps us deal with complexity. There are too many objects to consider individually. Ifwe can find some common properties or behaviour between them, we can make meaningful classesto help us organise our knowledge and simplify our decision-making.We classify individual objects, for example soil profiles, by grouping them into classes, for examplesoil series. These classes then form other objects, that can in turn be classified into still more generalclasses, for example, reference soil groups. This is a hierarchical classification, and is common in soil.