Answer:
Describe the properties of carbon that lead to wide variation in organic compounds?
Carbon is able to to have wide variation in organic compounds as a result of it allotropic property as it is the only element because of the ability to form four types of bonds.
Explanation:
Answer:
The correct answer is: E) both B and C.
Explanation:
- Bacteria and Archaea forms two distinct and different Domains in the Taxonomic classification system.
- Nuclear envelope that surrounds and protects the genetic material by forming the Nucleus is absent in both Archaea and Bacteria. Both of them possess a region called the Nucleoid where their genetic material is located.
- Plasma membrane that surrounds the cell and maintains integrity of the cell structure is present in both Bacteria and Archaea. Although the composition of lipid in the plasma membrane is different in each.
- However, they vary in their cell wall composition. The cell wall of the bacteria is rich in a compound called peptidoglycan while the cell wall of archaea lacks peptidoglycan and is rich in polysaccharides and glycoproteins.
Answer:
O Cells are all the same on the inside
Answer:
The process depicted in the diagram above is explained below in complete details.
Explanation:
1 asexual generation
2. cytokinesis
3. karyokinesis
4.fission
(a) Amoeba
(b) in repetitious fission many elements modifications to offspring ( plasmodium ( while in amoeba only individual sections to create two separate daughter cell
(c) asexual reproduction
ii in leishmania you can totally cut three sections and it changes to a new organism and in amoeba, it can be cut wherever.
Answer:
Glucose
Carbondioxide
Explanation:
1.Glucose is phosphorylated and broken down to pyruvate in the process called Glycolysis.
2.The pyruvate is decaboxylated ( loss of Carbon atoms) and enters Kreb cycle where 2 CO2 molecules are lost. 1 C02 from conversation of Citrate to alpha -ketoglutarate , and another 1 CO2 molecule loss from the conversion of Alpha keto glutarate to succinate; <u>for each turn of Kreb cycle. </u>
Therefore 4C02 are produced per one molecule of glucose in cellular respiration as the waste products
