Radiocarbon dating can be used to date fossils in rocks to give an approximate age.
Explanation;
Radiocarbon dating is a technique for defining the age of an object involving organic material by using the properties of radiocarbon, a radioactive isotope of carbon.c material through using the properties of radiocarbon, a radioactive isotope of carbon. The development of radiocarbon dating has had an intense influence on archaeology
Radiocarbon dating can be used to date fossils in rocks to give an approximate age.
Explanation;
Radiocarbon dating is a technique for defining the age of an object involving organic material by using the properties of radiocarbon, a radioactive isotope of carbon.c material through using the properties of radiocarbon, a radioactive isotope of carbon. The development of radiocarbon dating has had an intense influence on archaeology
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(A) An increase in blood pH due to the accumulation of lactic acid
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(B) NO ATP production due to the absence of substrate-level phosphorylation
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(C) A buildup of lactic acid in the muscle tissue due to fermentation
O (D) A decrease in the oxidation of fatty acids due to a shortage of ATP
The statement 'a buildup of lactic acid in the muscle tissue due to fermentation' describes a metabolic consequence of a shortage of oxygen in muscle cells (Option C).
In conclusion, the statement 'a buildup of lactic acid in the muscle tissue due to fermentation' describes a metabolic consequence of a shortage of oxygen in muscle cells (Option C).
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Answer:
The correct answer is - C) a buildup of lactic acid in the muscle tissue due to fermentation.
Explanation:
In absence of enough oxygen for the muscle cells to perform the aerobic pathway to breakdown pyruvate for energy, the body starts producing lactic acid to convert glucose into energy.
This process is known as fermentation which can produce lactic acid and build it in muscle cells. There are some negative effects of fermentation and buildup of lactic acid in muscle cells such as cramps, pain, and fatigue in the muscles.
Forensic scientists have various tasks and responsibilities related to the examination and analysis of physical evidence in criminal investigations and legal proceedings. Three primary tasks or responsibilities of a forensic scientist include Evidence Collection and Preservation, Laboratory Analysis and Expert Testimony.
1. Evidence Collection and Preservation: Forensic scientists are responsible for collecting, documenting, and preserving physical evidence found at crime scenes. This includes gathering items such as DNA samples, fingerprints, bloodstains, clothing, weapons, and other relevant materials.
2. Laboratory Analysis: After evidence is collected, forensic scientists analyze it in a laboratory setting using specialized techniques and equipment. Depending on the nature of the case, forensic scientists may conduct various types of analyses, such as DNA profiling, fingerprint analysis, ballistics testing, toxicology screening, trace evidence examination (e.g., fibers, hair, soil), and handwriting analysis.
3. Expert Testimony: Forensic scientists are often called upon to testify as expert witnesses in court proceedings. They present their findings, interpretations, and conclusions based on their analyses of the evidence. Expert testimony helps to clarify complex scientific matters for the judge and jury, assisting them in understanding the significance of the evidence in the context of the case.
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B) complement
C) proteins
D) antigens
E) interferons