Answer:
b
Explanation:
The measurement that would be possible from the triple beam balance would be <u>463.455 g.</u>
<em>Although the triple beam balance is used to measure the mass of objects, their reading errors are usually ±0.05 g. The implication is that triple beam balances can only measure to the maximum accuracy of two decimal places.</em>
Therefore, the triple beam balance can measure every other measurement in the options given but not 463.455 g.
Correct option: <em>c</em>
I believe it is, B. distance
Answer:
The correct answer is - the highest probability of dying at a very young age.
Explanation:
A type III survivorship curve represents species such as insects and plants where the individuals will live their life span to adulthood and die as they get older due to the greatest mortality for such individuals of certain species is experienced early in life. There will be a concave curve on a graph in type 3 species curve of survivorship. Therefore, there is very high chances of such species to die at very young age.
Both glycerophospholipids and sphingolipid structures are asymmetrically distributed in the two layers of the phospholipid bilayer. Sphingolipids are membrane lipids that have a ceramide backbone while glycerophospholipid has glycerol present in its membrane lipids. Sphingolipids may or may not be present.
Answer:
The breakdown of carbohydrates in the cell during cellular respiration does not change the matter or energy in the molecule. Actually, the matter in the energy molecule, which is the number of atoms and molecule, remains the same and are only transferred to make other molecules (remember that in a chemical reaction, the number of atoms on the reactants side must balance with those of the products). The energy in the bonds of the molecule, as they are broken down by metabolic enzymes, are what is transferred to ATPs. This process is not efficient as most energy is lost as heat. The energy in the ATPs is used in catabolic process like the formation of carbohydrates in the Calvin cycle of plants. Catabolic processes reduce entropy - & increase Gibbs free energy - hence require energy.
Ultimately, no energy or matter is destroyed or made, it is only transferred, hence observing the first law of thermodynamics.
Energy in the body is stored through glycogenesis where glycogen is formed from excess glucose and stored in tissues. When energy is required, this glycogen is broken down back to glucose through glycogenolysis and it can be used in cellular respiration.
