Four.
Hexane is C6H14 and looks like 6 carbon atoms strung in a zigzag line with 2 hydrogen atoms attached at each carbon and an endcap hydrogen atom each at the ends of the chain.
Yes, glycolysis, citric acid cycle, and electron transport chain each release certain amount of ATP.
the each are inthe life cycle
1. Glycolysis 2. Link Reaction 3. Krebs' Cycle 4. Electron Transport Chain/Chemiosmosis
Cellular respiration occurs in four stages, each stage accomplishing different tasks. These are: 1. glycolysis 2. the transition stage 3. the Krebs cycle (aka citric acid cycle) 4. the electron transport chain
Four.
The food chain is the cycle that animals interact in how they eat each other. This is also similar to Trophic levels, and how the energy flows and matter cycles between animals and different levels of the food chain.
Hexane is C6H14 and looks like 6 carbon atoms strung in a zigzag line with 2 hydrogen atoms attached at each carbon and an endcap hydrogen atom each at the ends of the chain.
Hydrogen-1 is fused into helium-4. This happens at high temperatures - somewhere around 14 million kelvin (which, at such high temperatures, is the same as 14 million degrees Celsius, for all practical purposes). There are two main reaction chains that in stars: the proton-proton chain reaction, and the CNO cycle. I suggest you read the corresponding Wikipedia articles, if you want more details about each of the reaction chains. Anyway, in our Sun, the predominant reaction chain is the proton-proton chain reaction.
This compound would be pentane and would have 12 hydrogen atoms.
Yes, glycolysis, citric acid cycle, and electron transport chain each release certain amount of ATP.
The difference between a saturated and unsaturated fatty acid are the number of hydrogen atoms and double carbon bonds in the fatty acid chain. A saturated fatty acid has no carbon double bonds, two hydrogen atoms for each carbon atom along the chain and three for the carbon atom at each end. In an unsaturated fatty acid chain some of the hydrogen atoms are replaced by a double bond between neighboring carbon atoms. Mon-unsaturated and poly-unsaturated fatty acids differ in the number of double carbon bonds in the chain, and thus the total number of hydrogen atoms.
the each are inthe life cycle
The problem with Watson and Crick's original hypothesis of each base bonding to an identical base is that it violates Chargaff's rules of base pairing. Each new base chain is created instead by complementary bonding (Adenine to Thymine and Guanine to Cytosine).
1. Glycolysis 2. Link Reaction 3. Krebs' Cycle 4. Electron Transport Chain/Chemiosmosis
The alkane with 100 hydrogen would be C49H100.The 100 hydrogen will have 49 carbons attached.The carbons on the ends would have 3 hydrogen each so the hydrogen left are 94 so the Carbon in the chain can only have 2 hydrogen each.Therefore the no of hydrogen in between will have 47 carbons and two carbons on the end. 47+2 =49 carbons.
The side chain. Each proteinogenic amino acid has a hydrogen, a carboxylic acid, and an amine group on a central carbon, with a side chain that varies between the acids.