Yes. Mutations are random copying errors much of the time and that never stops because replication is not perfect.
The presence of antibiotic-resistant bacteria is a clear indication that evolution is still occurring. As antibiotics are used more frequently, bacteria can develop mutations that make them resistant to these drugs, showcasing natural selection in action.
yes
The opposite of being still could be moving, or restless, wiggly, jumpy.The opposite of still occurring (at this time) would be "no longer" occurring.
The modern name of the cell amoeba is mycoplasma bacterium
Mammals were around when the dinosaurs were, we/they wer ebasically rodents until 64 millions years ago when the dinoaurs died out. Anatomically modern humans have been around for 500,000 years. Modern humans probably (mostly brain evolution is my theory) is debatable, but at least 50,000 years. But basically, we're talking about a very long time period. 64 million years and more.
Yes, although mutations are rare, they are still present today meaning that they were also present during the 20th century.
about 50 to 60% organisms
In the natural world the answer is definitely yes. Naturally occurring metals where the only things that really conducted. But with modern civilization we are extracting the metals out of the minerals. But still there are more non conductors.
Carl Linnaeus, a Swedish botanist, created the system of binomial nomenclature in the 18th century, which is still used today. His work laid the foundation for modern taxonomy and classification of organisms based on shared characteristics.
No, spontaneous generation has been disproven by scientific experiments and observations. It is no longer considered a valid explanation for the appearance of life or living organisms. The modern understanding of biology is based on principles of biogenesis, which states that living organisms can only arise from other living organisms.
Yes it is still possible but it reduces the chances of it occurring
Carl Linnaeus, a Swedish botanist, is known for creating the modern system of classification for organisms based on similarities in their physical characteristics. His work involved grouping organisms into hierarchical categories based on their shared characteristics, leading to the Linnaean taxonomy system that is still used today.