Yes
True
Scientist drill into ice and remove ice cores for study. Scientist analynze air trapped in the ice to learn how the atmosphere has changed. Scientists can develop an accurate history of overall weather patterns over time.
yes. if a new scientist comes along that is more educated a theory can change. over time scientists learn more and more about topics and they can be updated when new information is discovered.
The michif language changed over time with how the earth changed. The language changed so that people can learn it better with how the word is said and spelled.
Fossils that include bones can indicate the overall size of an animal, and how its structure was adapted for the environment. For plants, archaeologists can determine the general classification and how the plant may be related to modern plants. Fossils can also indicate how similar organisms changed in geographic distribution as later species took the place of earlier ones.
The fossil record provides evidence about the history of life and past environment on earth. The fossil record also shows that different groups of organism have changed over time.
True
Scientists began to study artifacts to learn about past human societies, cultures, and behaviors. By studying artifacts, scientists can reconstruct the ways people lived, their technology, trade networks, and beliefs. This helps us understand human history and how civilizations evolved over time.
Scientists can learn about evolution by examining the fossil record to track changes in species over time, studying the genetic material of organisms to understand their relationships and evolutionary history, and observing natural selection in action in populations over generations. By combining these different lines of evidence, scientists can develop a coherent understanding of how species have changed and diversified over millions of years.
Scientists use various lines of evidence, such as the fossil record, comparative anatomy, embryology, and genetics, to show that living things have changed over time. By studying these pieces of evidence, scientists can construct evolutionary relationships and track changes in species over generations. This accumulation of evidence supports the theory of evolution.
Scientists study fossils to learn about the history of life on Earth, past environments, and how different groups of organisms have evolved and changed over time. By analyzing fossil remains, scientists can reconstruct ancient ecosystems and understand how life has adapted to environmental changes over millions of years. This information helps us piece together the evolutionary timeline of life on Earth and how it has shaped the world we live in today.
The climate at the time the fossile was preserved. :)
You can't learn languages in Antarctica. The scientists who live there are working, and would not have time to teach you.
To gain an understanding of how populations change over time, scientists often observe organisms with short generation times, such as fruit flies, bacteria, or certain plants. These organisms allow for quicker observation of changes in populations and genetic traits over multiple generations. By studying these organisms, scientists can infer how natural selection and other evolutionary forces shape populations over time.
An improvement in microscope increases its magnifying power by which the scientists can see cell's components clearly and their study becomes easier thus they can learn more.
Scientist drill into ice and remove ice cores for study. Scientist analynze air trapped in the ice to learn how the atmosphere has changed. Scientists can develop an accurate history of overall weather patterns over time.
Core samples provide a snapshot of past environmental conditions by preserving layers of sediment or rock over time. Scientists can analyze these samples to understand past climates, ocean conditions, and even the presence of certain organisms, helping to reconstruct Earth's history and track changes over time.