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The amount of catalyst left over after a reaction depends on various factors such as its reactivity, consumption in the reaction, and conditions. Without additional information, it is not possible to determine how much catalyst would be left over after using 10mL in a reaction.
Without an enzyme, the activation energy needed to start a reaction is much greater. An enzyme is a catalyst, which decreases the amount of activation energy needed to start a reaction. By doing so, it decreases the amount of time the chemical reaction takes place.
It is an exothermic reaction. There are multiple ways to think about this. The reactants are in the gas phase and thus have a lot of energy within the molecules. When they react to produce a liquid, which has much less energy in its molecules. The energy must be released to the environment to lower the energy of the bonds.
The reaction 6CO2 + 6H2O ---> C6H12O6 + 6O2 is the chemical equation for photosynthesis. In this reaction, carbon dioxide and water are transformed into glucose and oxygen gas with the input of energy. This is the reaction that allows plants to be autotrophs, as the glucose produced can be used as a source of energy.
Carbon dioxide does not support the combustion of magnesium; it acts as a fire suppressant by displacing oxygen. Combustion requires oxygen, so the presence of carbon dioxide can inhibit the reaction by reducing the concentration of oxygen available for combustion.
If you start with 4 H2O2 molecules, you would end up with 2 O2 molecules. This is because for every 2 molecules of H2O2 that decompose, 1 molecule of O2 is produced.
Third order reactions imply reaction between three molecules, which implies collision between three molecules. From a probability standpoint this is much less likely than, say, a second-order reaction, where only two molecules must come together.
When you heat any substance the molecules within the substance start to move more. This movement is actually the electrons jumping to higher orbitals, and the bonds between atoms vibrating. When this occurs the molecules move about much more rapidly increase the rate and chance that they will interact, thus increasing the reaction speed.
The coefficients and molar masses are used to calculate amounts of molecules.
Enzymes speed up a reaction by lowering the activation energy. This is the amount of energy required to start the reaction. By lowering the activation energy, the reaction can proceed much more quickly.
The energy of the reactants in a chemical reaction is known as the activation energy. It represents the minimum amount of energy required to initiate a reaction by breaking the chemical bonds in the reactant molecules. The reactants typically have higher energy levels than the products in an exothermic reaction.
The number of CO2 molecules formed in a chemical reaction depends on the stoichiometry of the reaction. Without knowing the specific reaction, it is not possible to provide an exact number of CO2 molecules formed.
The get much much slower almost when they are about to stop, then they rape each others brains out, then they get high, and then they start moving much much faster again. Hope this helps
yes, it's true because increase in temperature increases the activity of atoms and molecules and thus, they begin to move and react fast. One common example of this is that while cooking until we supply heat, no change occurs since then the atoms and molecules are not very much active but as soon as we start heating, the reaction occurs and your food is cooked.
It depends on what enzyme and what chemical you're talking about.In general, enzymes catalyze a certain reaction for a certain molecule or class of molecules. They do pretty much bupkis to any molecules outside that class.
The amount of catalyst left over after a reaction depends on various factors such as its reactivity, consumption in the reaction, and conditions. Without additional information, it is not possible to determine how much catalyst would be left over after using 10mL in a reaction.
Without an enzyme, the activation energy needed to start a reaction is much greater. An enzyme is a catalyst, which decreases the amount of activation energy needed to start a reaction. By doing so, it decreases the amount of time the chemical reaction takes place.