Chemistry, asked by Irfan1729, 8 months ago

write five features of Ellingham diagram..... copy or spam will be reported ✌✌✌​

Answers

Answered by rupamtiwari917
1

What is Ellingham diagram?

Ellingham diagram : The graph plotted ΔG against TK for the formation of oxide is called as Ellingham diagram.

(a) The graph for the formation of metal oxide is a straight line with an upward slope.

(b) There is sudden change in the slope of some metal oxides such as MgO, ZnO and HgO.

(c) For a few metal oxides of mercury and silver the graph is at the upper part in the Ellingham diagram (AgO and HgO).

Five features of Ellingham diagram.

Ellingham diagrams are plots of change in standard free energy change with temperature for various reactions like the formation of oxides , sulphides etc..of various elements.Ellingham diagrams for the formation of oxides obtained by plotting the standard free energy change v/s Temperature for the oxidation process involving one mole of oxygen at various temperatures.

SALIENT FEATURES FEATURES OF ELLINGHAM ELLINGHAM DIAGRAM

1. Curves in the Ellingham diagrams for the formation of metallic oxides are straight lines with a positive slope.

2. The lower the position of a metal in the Ellingham diagram, the greater is the stability of its oxide. For example, the Ellingham diagram for Al is found to be below Fe2O3.

3. The greater the gap between any two lines, the greater the efficiency of the reducing agent.

4. Stability of metallic oxides decrease with increase in temperature. Highly unstable oxides like Ag2O and HgO easily undergo thermal decomposition.

5. The formation enthalpy of carbon dioxide (CO2) is almost a temperature-independent constant, while that of carbon monoxide (CO) has negative slope. According to Boudouard reaction, carbon monoxide is the dominant compound in higher temperatures, and the higher the temperature, the more efficient reductant carbon monoxide also is.

6. A substance whose Gibbs free energy of formation is lower (ΔG line lower on diagram) at given temperature, will reduce one whose free energy of formation is higher on the diagram. Hence metallic aluminum can reduce iron from iron oxide into metallic iron, aluminum itself oxidizing into aluminum oxide. (This reaction is employed in thermite.)

7. The intersection of two lines imply the equilibrium of oxidation and reduction reaction between two substances. Reduction with using a certain reductant is possible at the intersection point and higher temperatures where the ΔG line of the reductant is lower on diagram than the metallic oxide to be reduced. At the point of intersection the Gibbs energy is 0(zero), below this point the Gibbs energy is <0 and the oxides are stable,while above the point of intersection the Gibbs 

Answered by tintin15551
0

Answer:

Diagram features

Curves in the Ellingham diagrams for the formation of metallic oxides are basically straight lines with a positive slope. The slope is proportional to ΔS, which is fairly constant with temperature. O and HgO easily undergo thermal decomposition. 2 line near 700 °C.

Explanation:

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