Redox couples are analogous to conjugate acid-base pairs and behave in much the same way. The stronger an oxidizing agent, the weaker the corresponding reducing agent, and the stronger a reducing agent, the weaker the corresponding oxidizing agent. For example, in a galvanic cell, the two redox coupRead more
Redox couples are analogous to conjugate acid-base pairs and behave in much the same way. The stronger an oxidizing agent, the weaker the corresponding reducing agent, and the stronger a reducing agent, the weaker the corresponding oxidizing agent. For example, in a galvanic cell, the two redox couples are represented as Zn²⁺/Zn and Cu²⁺/Cu.
The solutions which obey Raoult’s law over the entire range of concentration are known as ideal solutions. The ideal solutions have two other important properties. The enthalpy of mixing of the pure components to form the solution is zero and the volume of mixing is also zero, i.e., ∆mixH = 0, ∆mixVRead more
The solutions which obey Raoult’s law over the entire range of concentration are known as ideal solutions. The ideal solutions have two other important properties. The enthalpy of mixing of the pure components to form the solution is zero and the volume of mixing is also zero, i.e.,
∆mixH = 0, ∆mixV = 0
All these properties depend on the number of solute particles irrespective of their nature relative to the total number of particles present in the solution. Such properties are called colligative properties.
All these properties depend on the number of solute particles irrespective of their nature relative to the total number of particles present in the solution. Such properties are called colligative properties.
The ebullioscopic constant is also called the molal elevation constant. It is defined as the elevation in boiling point when one mole of non-volatile solute is added to one kilogram of solvent. It is denoted by Kb. The unit of an ebullioscopic constant is K Kg mol⁻¹.
The ebullioscopic constant is also called the molal elevation constant. It is defined as the elevation in boiling point when one mole of non-volatile solute is added to one kilogram of solvent. It is denoted by Kb. The unit of an ebullioscopic constant is K Kg mol⁻¹.
Cryoscopic constant: It is the depression of freezing point of the solvent produced on dissolving one mole of a substance in 1000 g of it. It is also called molal depression constant.
Cryoscopic constant: It is the depression of freezing point of the solvent produced on dissolving one mole of a substance in 1000 g of it. It is also called molal depression constant.
What is a redox couple write example?
Redox couples are analogous to conjugate acid-base pairs and behave in much the same way. The stronger an oxidizing agent, the weaker the corresponding reducing agent, and the stronger a reducing agent, the weaker the corresponding oxidizing agent. For example, in a galvanic cell, the two redox coupRead more
Redox couples are analogous to conjugate acid-base pairs and behave in much the same way. The stronger an oxidizing agent, the weaker the corresponding reducing agent, and the stronger a reducing agent, the weaker the corresponding oxidizing agent. For example, in a galvanic cell, the two redox couples are represented as Zn²⁺/Zn and Cu²⁺/Cu.
See lessWhat do you mean by ideal solution?
The solutions which obey Raoult’s law over the entire range of concentration are known as ideal solutions. The ideal solutions have two other important properties. The enthalpy of mixing of the pure components to form the solution is zero and the volume of mixing is also zero, i.e., ∆mixH = 0, ∆mixVRead more
The solutions which obey Raoult’s law over the entire range of concentration are known as ideal solutions. The ideal solutions have two other important properties. The enthalpy of mixing of the pure components to form the solution is zero and the volume of mixing is also zero, i.e.,
See less∆mixH = 0, ∆mixV = 0
What are the colligative properties?
All these properties depend on the number of solute particles irrespective of their nature relative to the total number of particles present in the solution. Such properties are called colligative properties.
All these properties depend on the number of solute particles irrespective of their nature relative to the total number of particles present in the solution. Such properties are called colligative properties.
See lessWhat is the ebullioscopic constant?
The ebullioscopic constant is also called the molal elevation constant. It is defined as the elevation in boiling point when one mole of non-volatile solute is added to one kilogram of solvent. It is denoted by Kb. The unit of an ebullioscopic constant is K Kg mol⁻¹.
The ebullioscopic constant is also called the molal elevation constant. It is defined as the elevation in boiling point when one mole of non-volatile solute is added to one kilogram of solvent. It is denoted by Kb. The unit of an ebullioscopic constant is K Kg mol⁻¹.
See lessWhat do you mean by cryoscopic constant?
Cryoscopic constant: It is the depression of freezing point of the solvent produced on dissolving one mole of a substance in 1000 g of it. It is also called molal depression constant.
Cryoscopic constant: It is the depression of freezing point of the solvent produced on dissolving one mole of a substance in 1000 g of it. It is also called molal depression constant.
See less