Which experimental setup would let a student investigate the connection between kinetic energy and temperature?(1 point) Responses placing one drop of food coloring in a cup with 50 mL of water at 10ºC; placing two drops of food coloring in a second cup with 100 mL of water at 40ºC placing one drop of food coloring in a cup with 50 mL of water at 10ºC; placing two drops of food coloring in a second cup with 100 mL of water at 40ºC placing one drop of food coloring in a cup with 50 mL of water at 10ºC; placing two drops of food coloring in a second cup with 50 mL of water at 10ºC placing one drop of food coloring in a cup with 50 mL of water at 10ºC; placing two drops of food coloring in a second cup with 50 mL of water at 10ºC placing one drop of food coloring in a cup with 50 mL of water at 10ºC; placing one drop of food coloring in a second cup with 100 mL of water at 10ºC placing one drop of food coloring in a cup with 50 mL of water at 10ºC; placing one drop of food coloring in a second cup with 100 mL of water at 10ºC placing one drop of food coloring in a cup with 50 mL of water at 10ºC; placing one drop of food coloring in a second cup with 50 mL of water at 40ºC

Question

GPT-4o mini · Answer

To investigate the connection between kinetic energy and temperature, the best experimental setup would be:

Placing one drop of food coloring in a cup with 50 mL of water at 10ºC; placing two drops of food coloring in a second cup with 100 mL of water at 40ºC.

This setup allows the student to observe how the diffusion rate of the food coloring is affected by the temperature of the water, which relates to the kinetic energy of the molecules in the water. Higher temperatures (40ºC) will cause the water molecules to move faster, leading to quicker dispersion of the food coloring compared to the cooler water (10ºC) where the kinetic energy is lower.