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☆☆☆☆☆A substance that oxidizes another substance
Any chemical substance that has a tendency to accept electrons and thereby undergoing reduction themselves is known as an oxidising agent.
An oxidizer is a compound that supplies its own oxygen and heat when in contact with organic compounds. These chemicals that can react vigorously and explode.
Oxidizers are compounds which are capable of reacting with and oxidizing (i.e., giving off oxygen) other materials. A well known example of oxidation is the process we know as corrosion, where the metal reacts with air to form the metal oxides referred to as "rust".
The primary hazard associated with this class of compounds lies in their ability to act as an oxygen source, and thus to readily stimulate the combustion of organic materials. As you may recall, it takes three components for a fire to happen - a fuel source (usually an organic compound, such as paper), an ignition source (such as a flame, a spark, friction, etc.) and an oxygen source (in this case - a cylinder of OXYGEN, a strong oxidizer).
Oxidizers may be grouped into 4 classes based on their ability to affect the burning rate of combustible materials or undergo self-sustained decomposition. This classification system was established by the National Fire Protection Association (NFPA 43A, 1980) as a means to provide information on safe storage of oxidizing materials.
Class 1: An oxidizing material whose primary hazard is that it may increase the burning rate of combustible material with which it comes in contact
Class 2: An oxidizing material that will moderately increase the burning rate of which may cause spontaneous ignitionof combustible material with which it ocmes in contact.
Class 3: An oxidizing material that will cause a severe increase in the burning rate of combustible material with which it comes in contact or which will undergo vigorous self-substained decomposition when catalyzed or exposed to heat.
Class 4: An oxidizing material that can undergo an explosive reaction when catalyzed or exposed to heat, shock or friction.
Electrons are transferred between atoms.
the metal on which electroplating is to be done is taken as cathode ( negative electrode) . the metal of which electroplating is to be done is taken as anode ( positive electrode) and the salt solution of the metal of which electroplating is to be done is taken as electrolyte .
example-
if we want to electroplate iron with copper then iron is taken as cathode and copper is taken as anode and electrolyte is copper sulphate.Electroplating is the process of plating one metal onto another by hydrolysis, most commonly for decorative purposes. This is done through the use of copper in a copper sulfate bath.
The average atomic mass represents the weighted average of the masses of the isotopes of the element.
it's big battery's.
it has more electrons in the product than in the reactant
if oxidation states change, it is a redox reaction
the oxidation states are always 0 for both atoms
Mg2+
AgNO3 #APEX
-1.68 V
The number of electrons transferred in the reaction . . APEX c;
In this case the yield is 77,27 %.
It goes from +1 to 0
-3
1
The color of corn is different than the color of gasoline or coal
APEX
It is 7.28*10^-7 in scientific notation
Depositing one metal on another
something about "native" should be ur answer..apex
