Which of the following is the correct representation of Haber process?
- Ammonia
- Nitrates
- Potash
- Urea
The Correct Option is A
Solution and Explanation
The Haber process is an industrial method used for the synthesis of ammonia (\( NH_3 \)) from nitrogen (\( N_2 \)) and hydrogen (\( H_2 \)) gases.
The reaction is exothermic and can be represented as:
\( N_2 (g) + 3H_2 (g) \rightarrow 2NH_3 (g) \)
Key Elements of the Haber Process:
- Reactants: The reactants in the Haber process are nitrogen gas (\( N_2 \)) and hydrogen gas (\( H_2 \)). Nitrogen is usually sourced from the air, and hydrogen is typically derived from natural gas (methane) through a process called steam reforming.
- Conditions: The reaction takes place under high temperature (around 450°C) and high pressure (150–300 atm), and is facilitated by an iron-based catalyst. The combination of these factors helps to increase the rate of reaction and the yield of ammonia.
- Catalyst: An iron catalyst is used to speed up the reaction. The catalyst provides an alternative pathway for the reaction, reducing the activation energy and enabling the reaction to occur more efficiently at a lower temperature.
- Exothermic Reaction: The Haber process is exothermic, meaning it releases heat. This is important for the energy balance of the process, as it helps to make the process more energy-efficient. However, controlling the temperature is crucial because higher temperatures favor the decomposition of ammonia, shifting the equilibrium towards the reactants.
Industrial Importance:
Ammonia produced through the Haber process is a key component in the production of fertilizers, especially nitrogen-based fertilizers like urea, ammonium nitrate, and ammonium sulfate. These fertilizers are vital for boosting agricultural productivity and ensuring food security globally. Additionally, ammonia is used in the manufacturing of explosives, plastics, and other chemicals.
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Given below are two statements.
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Given below are two statements:
Statement I: Nitrogen forms oxides with +1 to +5 oxidation states due to the formation of $\mathrm{p} \pi-\mathrm{p} \pi$ bond with oxygen.
Statement II: Nitrogen does not form halides with +5 oxidation state due to the absence of d-orbital in it.
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Given below are the pairs of group 13 elements showing their relation in terms of atomic radius. $(\mathrm{B}<\mathrm{Al}),(\mathrm{Al}<\mathrm{Ga}),(\mathrm{Ga}<\mathrm{In})$ and $(\mathrm{In}<\mathrm{Tl})$ Identify the elements present in the incorrect pair and in that pair find out the element (X) that has higher ionic radius $\left(\mathrm{M}^{3+}\right)$ than the other one. The atomic number of the element (X) is
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A. The stability of the hydrides decreases in the order \(\text{NH}_3 > \text{PH}_3 > \text{AsH}_3 > \text{SbH}_3 > \text{BiH}_3\)
B. The reducing ability of the hydrides increases in the order \(\text{NH}_3 < \text{PH}_3 < \text{AsH}_3 < \text{SbH}_3 < \text{BiH}_3\)
C. Among the hydrides, \(\text{NH}_3\) is a strong reducing agent while \(\text{BiH}_3\) is a mild reducing agent.
D. The basicity of the hydrides increases in the order \(\text{NH}_3 < \text{PH}_3 < \text{AsH}_3 < \text{SbH}_3 < \text{BiH}_3\)
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Concepts Used:
P-Block Elements
- P block elements are those in which the last electron enters any of the three p-orbitals of their respective shells. Since a p-subshell has three degenerate p-orbitals each of which can accommodate two electrons, therefore in all there are six groups of p-block elements.
- P block elements are shiny and usually a good conductor of electricity and heat as they have a tendency to lose an electron. You will find some amazing properties of elements in a P-block element like gallium. It’s a metal that can melt in the palm of your hand. Silicon is also one of the most important metalloids of the p-block group as it is an important component of glass.
P block elements consist of:
- Group 13 Elements: Boron family
- Group 14 Elements: Carbon family
- Group 15 Elements: Nitrogen family
- Group 16 Elements: Oxygen family
- Group 17 Elements: Fluorine family
- Group 18 Elements: Neon family