Flame atomization is a process in which a liquid sample is converted into a fine mist of droplets through the use of a flame. This mist is then heated to vaporize the liquid and produce atoms for analysis using techniques such as atomic absorption spectroscopy or atomic emission spectroscopy. This process allows for the detection and quantification of elements present in the liquid sample.
Atomization is the preparation of aerosols (solid or liquid particles in a gas).
Atomization
If you product has for example, dissociation of chlorine, it will have 2 atoms of chlorine in atomization, 0.5chlorine on balancing will give you only 1 mole of chlorine atom not 2 moles of atoms like dissociation enthalpy.
Some methods used to produce metallic powders include gas atomization, water atomization, mechanical milling, and chemical reduction. Gas atomization involves spraying molten metal into a gas stream to form fine droplets that solidify into powder. Water atomization uses high-pressure water jets to break up molten metal into droplets. Mechanical milling involves grinding coarse particles into smaller ones, while chemical reduction uses chemical reactions to precipitate metal particles from a solution.
The hottest flame is the blue flame and the coolest flame is yellow.
Atomization is the preparation of aerosols (solid or liquid particles in a gas).
atomization
D. Michelson has written: 'Electrostatic atomization' -- subject(s): Electrostatic atomization, Spraying
Alan Lawley has written: 'Atomization' -- subject(s): Atomization, Metal powders, Powder metallurgy
Atomization
Atomization
The equation for the atomization of silicon is: Si(s) -> Si(g)
If you product has for example, dissociation of chlorine, it will have 2 atoms of chlorine in atomization, 0.5chlorine on balancing will give you only 1 mole of chlorine atom not 2 moles of atoms like dissociation enthalpy.
Some methods used to produce metallic powders include gas atomization, water atomization, mechanical milling, and chemical reduction. Gas atomization involves spraying molten metal into a gas stream to form fine droplets that solidify into powder. Water atomization uses high-pressure water jets to break up molten metal into droplets. Mechanical milling involves grinding coarse particles into smaller ones, while chemical reduction uses chemical reactions to precipitate metal particles from a solution.
Answer- Flames in atomic emission are more sensitive to flame instability because optimum excitation conditions vary widely from element to element. High temperatures are needed for excitation of some elements and low temperatures for others. The region of flame that gives rise to optimum line intensities varies from element to element. Flame is rarely use in atomic emission because atomization is more complete when using a plasma due to the production of high temperatures. Also the plasma helps reduce the ionization interference effects. In flame absorption, after the sample is nebulized by a flow of gaseous oxidant, mixed with a gaseous fuel and carried into the flame it is then atomized. Then some of the atoms in the gas ionize to form cations and electrons. In flame emission the sample is introduce with argon, carries the sample into the flame. The flame is suppose to atomize the sample, while the flow of gas takes the ions and electrons to be detected.
An example of a physical change that starts with the letter A is the atomization of water.
In physics : the atomization is the action of separating a object in very small pieces. Pulverization is the action of fractionning a body into powder. Disintegration is the transformation of a proton into a neutron, also creating an electron. This is the base of a nuclear chain-reaction.