They both occur simultaneously in a redox reaction.
Generally in a body two type of reactions take place, catabolic and anabolic. Catabolic reactions are the type of reactions in which bio-molecules in our body split into their constituents to release energy; while anabolic reactions are those reactions in which new bio-molecules are synthesized in our Body. Together both reactions are known as METABOLISM.
No, not all chemical reactions require heat to start. Some reactions can occur at room temperature or even at low temperatures. Heat is often used to speed up reactions or provide enough energy to overcome the activation energy barrier.
Some signs (or evidence) of chemical change are: a gas is produced, the temperature changes, a substance disappears, a solid is formed a colour change occurs, a new odour is produced.
Reactants can exist in the same physical state in a homogeneous system. This means that all the reactants are in the same phase, such as all being in the gas phase or all being in the liquid phase. This is common in reactions that occur in solutions or gases.
Compounds ending in oxide typically consist of an element bonded to oxygen. Oxides are formed by the combination of elements with oxygen, resulting in a chemical compound. These compounds are often involved in various chemical reactions and play important roles in many processes, such as oxidation-reduction reactions and inorganic chemistry.
Enzymes are substances produced by living organisms, which are designed to act as a catalyst in biochemical reactions.
Oxygen gas, O2, is present in all combustion reactions. Example: Combusting methane gas CH4(g)+2O2(g) ----> CO2(g) + 2H2O(g)
These are decomposition reactions.
All combustion reactions involve the rapid combination of a fuel (usually a hydrocarbon) with oxygen gas to produce heat, light, and typically carbon dioxide and water as byproducts. These reactions are exothermic, meaning they release energy in the form of heat.
They are synthesized from monomers by dehydration reactions!
depression
ATP is common to both.
They all produce water, and a type of salts. NaOH + HCL ---> H2O + NaCl KOH + HCl ---> H2O + KCl
Metals rusting, wood or fuel burning, yeast fermenting sugar, and cellular respiration are common chemical reactions.
nope
ATP is common to both.
Which type of nerve agent is the MOST persistent