Answer:
Adenosine triphosphate (ATP)
Animals also release this source of energy.
Explanation:
All living organisms require energy to perform their life functions. This energy is obtained by breaking down organic molecules (usually glucose) in a catabolic reaction called CELLULAR RESPIRATION. These organic molecules store energy in their chemical bonds, this energy in a usable form by the cell (ATP) is released when organisms undergo cellular respiration (catabolism).
Plants likewise animals undergo this catabolic process and the same form of energy (ATP) is released for use via this process.
Answer:
The answer to your question is below
Explanation:
1 . Chromosome Carries the genes or inheritance units of a cell
2 . Chloroplast The tiny body that contains chlorophyll
3 . Nucleus The protoplasmic unit of a cell
4 . Vacuole A cell storage body that increases in size with age
5 . Membrane A protein and fat structure serving as a covering and enclosure for a cell
6 . Protoplast The protoplasmic substance separate from the cytoplasm
7 . Cell wall The rigid wall of plant cells that surrounds the cell membrane
8 . Cell The basic building block of all forms of life
9 . Protoplasm The organic substance making up the cells of all living things
Answer:
a) the covalent bond between the last phosphate and the middle phosphate
Explanation:
The ADP is composed by a molecule of Adenine, Ribose and two Phosphate groups. The addition of a paper weight in the spring represents the last phosphate added in a ADP, resulting in a ATP. The last phosphate connected with Ribose by a covalent bond, represented by the round paper weight connected to a spring, can be easily detached in order to provide energy to the cell by a process called dephosphorylation. The spring compressed represents the energy of the bond. In the model the compressed spring is represents the potential energy, but in the bond the energy is chemical, which will lead into a electron transference reaction.
Answer:
One theory had been that hippos were related to pigs. Yet mounting evidence suggested they are closer to whales. A new study concludes that a four-footed semi-aquatic mammal that thrived for some 40 million years was a common ancestor to both whales and hippos.
Explanation:
