The correct answer is option [C] Boiling. Boiling is the process where a substance changes from its liquid state to vapor state throughout the bulk of the liquid, typically occurring at a specific temperature called the boiling point. Option [A] Melting refers to the solid-to-liquid phase transition. Option [B] Evaporation involves the conversion of a liquid into vapor at the surface, while boiling occurs throughout the liquid. Therefore, option [C] accurately describes the change of state from liquid to vapor. Option [D] None of these is incorrect as boiling specifically denotes this transition.

The effect on the melting point of a pure substance when another substance is added depends on the nature and quantity of the added substance. Typically, the presence of impurities lowers the melting point of the pure substance. This occurs because impurities disrupt the regular arrangement of particles in the solid, making it easier for the substance to overcome intermolecular forces and transition into the liquid phase. Thus, the correct answer is option [B] Decreases. In some cases, if the added substance forms a compound with the pure substance, it may initially increase the melting point due to stronger intermolecular forces, but eventually, as more impurities are added, the melting point decreases. However, in most scenarios, the presence of impurities leads to a decrease in the melting point of the pure substance.

The correct answer is option [C] Sublimation. Sublimation is the process whereby a solid substance transitions directly into the vapor phase without passing through the liquid phase. This occurs when the vapor pressure of the solid exceeds the atmospheric pressure at a certain temperature, allowing molecules to escape the solid lattice and enter the gas phase. Common examples of substances that undergo sublimation include dry ice (solid carbon dioxide) and mothballs (naphthalene). Unlike boiling, which involves the conversion of a liquid into vapor, sublimation bypasses the liquid phase entirely. Distillation is a separation technique involving the separation of components in a liquid mixture based on differences in their boiling points. Polymerization is a chemical reaction in which monomers combine to form polymer chains. Thus, only option [C], sublimation, accurately describes the transformation of a solid substance into vapor without becoming a liquid.

The correct answer is [D] – 196 °C. Cryogenic testing is conducted at extremely low temperatures, typically around -196 °C. These temperatures are necessary for evaluating the performance and behavior of materials and components under extreme cold conditions. Cryogenic testing is essential for various applications, including aerospace, superconductivity research, and medical technology, where materials must withstand and function reliably in ultra-low temperature environments. By subjecting materials to cryogenic temperatures, engineers and researchers can assess their thermal properties, structural integrity, and suitability for use in cryogenic systems. This testing ensures that materials and components can operate safely and effectively in the demanding conditions of space exploration, particle accelerators, and other cryogenic environments, contributing to advancements in science, technology, and engineering.

The correct answer is [A] The specific heat of water is high. Water’s high specific heat allows it to absorb a significant amount of heat from the engine, effectively cooling it. This property makes water an efficient coolant for radiators in motor vehicles, helping to maintain engine temperatures within safe operating limits. Additionally, water is readily available and cost-effective, contributing to its widespread use as a coolant. While its density and availability at low temperatures may also play a role in its utility as a coolant, it is primarily the high specific heat capacity of water that makes it an ideal choice for cooling engines, ensuring optimal performance and preventing overheating.