Due to their characteristics, large bodies of water have a great influence on climate. By absorbing and releasing heat, they regulate temperature, resulting in milder conditions closer to the coast.
Through wind and ocean currents, heat is redistributed, causing warming or cooling of nearby regions. Bodies of water evaporating into the atmosphere add moisture to the air, leading to cloud formation and increased precipitation.
Due to oceanic influence, the coastal places get frequent weather with low temperature extremes. Large stores of water can also influence global phenomena such as the El Niño–Southern Oscillation, which affects global weather patterns. The exact effects vary according to factors such as proximity, size, ocean currents, prevailing winds, and regional geography. Large-scale water bodies are fundamental in determining regional and global climate trends.
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Organisms with eukaryotic cells are always multicellular, but organisms with prokaryotic cells are not.
B.
Eukaryotic cells do not have membrane-bound organelles, but prokaryotic cells do.
C.
Prokaryotic cells do not have a nucleus, but eukaryotic cells do.
D.
Prokaryotic cells always have cell walls, but eukaryotic cells do not.
2. 1
3. 4
4. 2
5. 8
When completely saturated, one hemoglobin molecule can carry up to 4 molecules of oxygen.
When fully saturated, a single hemoglobin molecule can carry four molecules of Oxygen (O2). Hemoglobin is found in red blood cells and is the protein structure that is responsible for the transportation of oxygen from the lungs to the body's tissues. This is possible because each of the four polypeptide chains that make up the structure of hemoglobin has one heme group, and each heme group has one iron atom that can bind with one oxygen molecule. Hence, a single hemoglobin molecule can carry up to four molecules of oxygen.
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brown bull. How would you determine whether the bull is a heterozygote for the dominant allele?