Morphology refers to the physical characteristics and structures of an organism, while molecular evidence involves studying the genetic material (DNA or proteins) to understand evolutionary relationships. Morphology focuses on external features, such as shape and size, while molecular evidence provides insights into the genetic similarities and differences between species. Both forms of evidence are used in combination to infer evolutionary relationships and taxonomy.
Morphology is the study of the form and structure of organisms, while physiology is the study of how these organisms function and the processes that occur within them. In simple terms, morphology focuses on what an organism looks like, while physiology deals with how it works.
Molecular evidence refers to the use of genetic material such as DNA or proteins to understand evolutionary relationships between different species. By comparing molecular sequences, scientists can determine how closely related organisms are and study their genetic diversity and evolutionary history. This type of evidence is widely used in the field of molecular biology and genetics to gain insights into the evolutionary processes that have shaped life on Earth.
Molecular remission refers to the absence of detectable disease at the molecular level, such as minimal residual disease in leukemia, which may still be present at the cellular level. Cellular remission, on the other hand, typically refers to the absence of disease or cancer cells in the body, as determined by tests like bone marrow biopsy.
Molecular biology provides evidence for evolution through the study of genetic sequences, comparing similarities and differences between organisms at the molecular level. By analyzing these sequences, scientists can trace evolutionary relationships, determine common ancestry, and understand how species have evolved over time through genetic mutations and natural selection. This molecular evidence supports the theory of evolution by showing the continuity of life and the patterns of genetic change that have occurred over millions of years.
Molecular evidence helps determine the genetic similarities and differences between species by comparing their DNA sequences. The more similar the DNA sequences are between two species, the more closely related they are believed to be. This information can be used to construct phylogenetic trees and identify evolutionary relationships among different species.
Detectives - are 'tasked' with finding clues and evidence to crimes. Scientists - domore analytical work down to molecular level.
different molecular construction
no
they will look different
Morphology is the study of the form and structure of organisms, while physiology is the study of how these organisms function and the processes that occur within them. In simple terms, morphology focuses on what an organism looks like, while physiology deals with how it works.
No, molecular formula alone cannot show the difference between isomers. Isomers have the same molecular formula but different structural arrangements of atoms. Additional information, such as structural formula or connectivity of atoms, is needed to differentiate between isomers.
Caca
the reactive : change in morphology but without malignant atypical : also chagne in morpholgy but with malignant
The difference is that opinion is what YOU think and evidence has been proved and you KNOW its right x Hope that Helps!!
the difference is that the substances is aparent only on the atomic or molecular level.
Molecular evidence refers to the use of genetic material such as DNA or proteins to understand evolutionary relationships between different species. By comparing molecular sequences, scientists can determine how closely related organisms are and study their genetic diversity and evolutionary history. This type of evidence is widely used in the field of molecular biology and genetics to gain insights into the evolutionary processes that have shaped life on Earth.
1 The difference between best and secondary evidence is best evidence is the legal doctrine that an original piece of evidence, particularly a document and secondary evidence is Secondary evidence is evidence that has been reproduced from an original document or substituted for an original item. For example, a photocopy of a document or photograph would be considered secondary evidence.