Question When you add cold milk and hot chocolate, they will slowly blend as the cooler liquid mixes with the warmer liquid. Eventually, the heat will be spread out evenly through the entire liquid. Which statement best explains why this happens?(1 point) Responses The liquids attract each other because the densities of the liquids are the same. The liquids attract each other because the densities of the liquids are the same. The molecules of the two liquids form chemical bonds to spread energy. The molecules of the two liquids form chemical bonds to spread energy. Cold liquids rise and hot liquids sink making the liquids mix. Cold liquids rise and hot liquids sink making the liquids mix. Heat always moves from areas of higher temperature to areas of lower temperature. Heat always moves from areas of higher temperature to areas of lower temperature. Skip to navigation
Heat always moves from areas of higher temperature to areas of lower temperature.
The statement that best explains why the cold milk and hot chocolate blend and eventually distribute heat evenly is: "Heat always moves from areas of higher temperature to areas of lower temperature."
The best statement that explains why the cold milk and hot chocolate blend and spread out evenly is: "Heat always moves from areas of higher temperature to areas of lower temperature." This is because heat tends to transfer from hot substances to cooler substances in order to achieve thermal equilibrium. In this case, the heat from the hot chocolate will transfer to the cooler milk until both liquids reach the same temperature. This process, known as heat transfer, occurs through conduction, where the molecules in the hot chocolate collide with the molecules in the cold milk, transferring their energy and spreading it out evenly through the entire liquid. It is important to note that the other statements provided are not relevant explanations for the blending and spreading of heat in this scenario.
