The characteristic that makes viruses different than bacteria is viruses need to eat almost constantly in order to remain alive. The only function viruses need to do is to reproduce and in order to do it, they need to eat constantly. In contrast to it, bacteria do not need to eat constantly in order to survive. Viruses are not a full fledged cell. The only structures they have is a protein coat wrapped up around their genetic material i.e. their DNA/RNA. The protein coat around their genetic material is known as capsid.
Viruses are different from bacteria because they are not made out of cells, they cause diseases, and they cannot eat or metabolize on their own.
Viruses are different from bacteria in several ways. One characteristic that sets viruses apart is that they are not made out of cells, unlike bacteria. Another difference is that pathogenic viruses cause diseases, while not all bacteria have this harmful effect. Additionally, viruses need a host cell to reproduce and cannot eat or metabolize on their own, unlike bacteria.
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-life logic
-house logistics
-environmental knowledge
Answer:
house logistics
Explanation:
False
B. $27.00; this is the amount Kelsey pays for 18 movies in 1 month
C. $39.50; this is the amount Kelsey pays for 18 months of service
D. $39.50; this is the amount Kelsey pays for 18 movies in 1 month
Answer:
It's D
Explanation: (I got right on a quiz)
Answer:
Photosynthesis is a chemical reaction where plants take in carbon dioxide (CO2) and water (H2O) through its stomata. With the help of sunlight and chlorophyll, which is found in its chloroplast, it is used to produce glucose (C6H12O6) and oxygen (O2). It converts light energy (sunlight) to chemical energy.
Explanation:
Answer:
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Explanation:
photosynthesis, plants take in carbon dioxide and water from the air and soil. This transforms the water into oxygen and the carbon dioxide into glucose. The plant then releases the oxygen back into the air, and stores energy within the glucose molecules.
It is convenient to divide the photosynthetic process in plants into four stages, each occurring in a defined area of the chloroplast: (1) absorption of light, (2) electron transport leading to the reduction of NADP+ to NADPH, (3) generation of ATP, and conversion of CO2 into carbohydrates (carbon fixation).