Final answer:
The question involves determining the type of chemical reaction for a given set of equations, which are mostly categorized as double displacement, single displacement, combustion, and decomposition reactions. One reaction involving C2H5 and Fe does not match these categories clearly without additional context.
Step-by-step explanation:
The question provided requires the identification of the type of chemical reaction demonstrated by each chemical equation. There are six primary types of chemical reactions that are of interest here: combustion, synthesis, decomposition, single displacement, double displacement, and the special case of an acid-base reaction (which can be a type of double displacement).
In the examples given, we can identify each reaction type as following:
- Na3PO4 + KOH ® NaOH + K3PO4 is an example of double displacement reaction.
- MgCl2 + Li2CO3 ® MgCO3 + LiCl is another example of a double displacement reaction.
- C6H12 + O2 ® CO2 + H2O represents a combustion reaction.
- Pb + FeSO4 ® PbSO4 + Fe illustrates a single displacement reaction.
- CaCO3 ® CaO + CO2 is a typical decomposition reaction.
- P4 + O2 ® P2O3 is also a synthesis reaction.
- RbNO3 + BeF2 ® Be(NO3)2 + RbF is another double displacement reaction.
- AgNO3 + Cu ® Cu(NO3)2 + Ag is a single displacement reaction.
- C3H6O + O2 ® CO2 + H2O represents another combustion reaction.
- The reaction of C2H5 with Fe does not fit neatly into these classical categories and may represent an example of an unusual organic reaction or a complexation which involves the transfer of electrons to form a new compound.
Without additional context or reaction conditions, the last reaction involving C2H5 and Fe does not provide enough information for an accurate classification.