Graham Howarth is correct. You can add carrier gas type, injection port temperature, gc column type (packed or capillary) and phase (too many to count),and a host of others. Without knowing the column phase I can't even suggest an elution order.
There really is not enough information to answer the question. It depends on what flow the carrier gas is set to; what temperature the procedure is carried out and also on the GC column itself.
Gas chromatography (GC) provides data on the chemical composition of a sample. It separates and analyzes the individual components of a mixture based on their physical and chemical properties. The data provided by GC includes: Retention time: The time it takes for a compound to travel through the GC column and reach the detector. This can be used to identify the compound. Peak area: The area under the peak on the chromatogram represents the amount of the compound present in the sample. Peak height: The height of the peak on the chromatogram represents the concentration of the compound in the sample. Mass spectrum: GC can be coupled with mass spectrometry (GC-MS) to provide additional data on the molecular weight and structure of the compounds in the sample. Identification: GC can be used to identify individual compounds in a mixture based on their retention time and mass spectrum. This information can be compared to a database of known compounds to identify the unknown compounds in the sample.
Hexane is a mixture of 3 isomers out of a possible 5 isomers of 6 carbon alkanes. Normally there are 3 peaks for GC. Use a GC grade n-Hexane for one peak of the 'main' hexane.
A qualitative and a quantitative result can be used to identify the co-elution in GC-MS.
GC can give very resolved sharp peaks with short run time compared to hplc. additionally, there is less compatibility issue in setting an MS up to a GC than HPLC
about 40%
Gas chromatography (GC) provides data on the chemical composition of a sample. It separates and analyzes the individual components of a mixture based on their physical and chemical properties. The data provided by GC includes: Retention time: The time it takes for a compound to travel through the GC column and reach the detector. This can be used to identify the compound. Peak area: The area under the peak on the chromatogram represents the amount of the compound present in the sample. Peak height: The height of the peak on the chromatogram represents the concentration of the compound in the sample. Mass spectrum: GC can be coupled with mass spectrometry (GC-MS) to provide additional data on the molecular weight and structure of the compounds in the sample. Identification: GC can be used to identify individual compounds in a mixture based on their retention time and mass spectrum. This information can be compared to a database of known compounds to identify the unknown compounds in the sample.
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duties of GC in paf?
Hexane is a mixture of 3 isomers out of a possible 5 isomers of 6 carbon alkanes. Normally there are 3 peaks for GC. Use a GC grade n-Hexane for one peak of the 'main' hexane.
Gc compound
GC Mascara was created in 1930.
GC Biaschesi was created in 1941.
GC Rieber was created in 1879.
GC EP was created in 2000.
Yes
What is deference GC, HPLC & GCHS
calculate the %of gc content in the dna molecule