Most chemical reactions occur in the cytoplasm of a cell, which is a gel-like substance that fills the interior space. The cytoplasm contains various organelles, enzymes, and substrates that facilitate biochemical processes. It is in this environment that metabolic reactions, such as glycolysis and protein synthesis, take place, allowing cells to function and respond to their surroundings.
I know that the mitochondria is the "power house" of a cell. Just remember....MIGHTY MITOCHONDRIA... actually, its were oxidative phosphorylatn and energy productn is enhanced in all cells!
Glycolysis requires glucose, enzymes, and ATP to occur. Glucose is the starting molecule that is broken down, enzymes facilitate the chemical reactions involved in glycolysis, and ATP provides the necessary energy for these reactions.
A double replacement reaction is a chemical reaction where two reactant ionic compounds exchange ions to form two new product compounds with the same ions.Double replacement reactions take the form:A+B- + C+D- → A+D- + C+B-
C. metabolism. Metabolism encompasses all the chemical reactions that occur within living organisms, including both catabolism (the breakdown of molecules for energy) and anabolism (the synthesis of compounds necessary for growth and maintenance). It is essential for maintaining the energy balance and cellular functions in living systems.
Any reaction occur; vitamin C is soluble in water.
Coal is primarily composed of carbon, which can undergo chemical reactions such as combustion when exposed to heat and oxygen. When coal is heated, the carbon in it reacts with oxygen in the air to produce carbon dioxide and heat energy. This is the basis of how chemical reactions occur in coal.
I know that the mitochondria is the "power house" of a cell. Just remember....MIGHTY MITOCHONDRIA... actually, its were oxidative phosphorylatn and energy productn is enhanced in all cells!
both b & c
20°C Although 25°C is frequently quoted, that is not a comfortable temperature. Most labs where the chemical reactions are developed operate at or around 20°C.
G. C. Akerlof has written: 'Bibliography of chemical reactions in electric discharges' -- subject(s): Bibliography, Chemical reactions, Electric discharges through gases
The hypothesis that cooking temperature affects the rate of chemical reactions in food ingredients is most likely to explain the results of cooking at 60°C and 70°C. The higher temperature likely led to faster chemical reactions, resulting in more pronounced changes in the food's texture, flavor, and color compared to cooking at 60°C.
Chemical reactions occur when different atoms and molecules combine together and spit apart. For example, if Carbon (C) is burnt in Oxygen (O2) to form Carbon Dioxide, a Chemical Reaction occurs.So, during chemical reactions, new product atoms are not created, and old reactant atoms are not destroyed. Atoms are rearranged as bonds are broken and formed. In all chemical reactions, mass is always conserved...In chemical reactions, atoms rearrenge to form products...During chemical change atoms arrange and form new bonds. The new bonds are form to make the products.
Enzymes are not destroyed during chemical reactions.
Glycolysis requires glucose, enzymes, and ATP to occur. Glucose is the starting molecule that is broken down, enzymes facilitate the chemical reactions involved in glycolysis, and ATP provides the necessary energy for these reactions.
A double replacement reaction is a chemical reaction where two reactant ionic compounds exchange ions to form two new product compounds with the same ions.Double replacement reactions take the form:A+B- + C+D- → A+D- + C+B-
C. metabolism. Metabolism encompasses all the chemical reactions that occur within living organisms, including both catabolism (the breakdown of molecules for energy) and anabolism (the synthesis of compounds necessary for growth and maintenance). It is essential for maintaining the energy balance and cellular functions in living systems.
Metabolism refers to the chemical reactions that occur within cells. A hypothetical metabolic pathway is shown below. Reactions occur in a sequence and a specific enzyme catalyzes each step. Intermediates can be used as starting points for other pathways. For example, "C" in the diagram above can be used to produce "D" but can also be used to produce "F".