Answer:
1. Respiration results in the production of energy and Breathing doesn’t provide energy.
2. Breathing is a biophysical process that involves the exchange of gases through inhalation and exhalation while respiration is a biochemical process to release energy from organic compounds which are then used for performing different physical activities.
Answer;
C. Used ATP is discarded by the cell as waste.
Explanation;
-ATP is produced during cellular respiration, a process which involves the breakdown of glucose to generate energy in the form of ATP.
-During cellular respiration chemical energy in glucose is converted to ATP which can be used by the cells to drive cellular processes. ATP is a molecule that consist of ribose sugar, adenine, and 3 phosphates. Energy stored in ATP is released by breaking the phosphate bond to form ADP.
Answer:
The fusion of two gametes to form a diploid zygote is called SYNGAMY.
Explanation:
During sexual reproduction process, exchange of DNA usually occur and this introduces diversity into the offspring that are produced. One of the ways by which exchange of DNA take place is called syngamy. Syngamy involves the bonding together of two sex cells leading to the formation of cell that has double amount of the chromosomes in the parent cells. The two cells that bond together are called gametes while the diploid cells formed is called zygote. The major function of syngamy is creation of variation; the genotypes in the formed zygote differ from those of the gametes.
A little bit too many to count
both some of them are :
Mount St. Helens, Mount Fuji, Mount Merapi , Mount Krakatoa, Mount Unzen , Mount Tamboa, Mount Rainier, mount Etna , Mount Pelee, Mount Vesuvius , Etc.
Answer:
In sample A,
The percentage of thymine or T is 20.5 %. A = T, so the percentage of A will also be 20.5 %.
Thus, A + T = 20.5 + 20.5 = 41 %
Therefore, G + C = 100 - 41 = 59 %
So, G = 59 /2 = 29.5 %
Also. G = C = 29.5 %
In sample B,
The percentage of Thymine or T is 30.7 %. As A = T, so A will also be 30.7 %.
Thus, A + T = 30.7 + 30.7 = 61.4 %
Also, G + C = 100 - 61.4 = 38.6 %
So, G = 38.6 / 2 = 19.3 %
Therefore, C will also be 19.3 %. As GC content is more found in the sample A, that is, 59 %. Hence, the sample A will possess the higher temperature to denature in comparison to B.
