Select the statement(s) that apply to the kinetic molecular theory of gases. Because the space between gas particles is large, gas particles exert no attractive forces on each other. The kinetic energy of gas particles is independent of the temperature. When gas particles collide with each other, they stick together and form a larger particle. A gas consists of particles that move randomly and rapidly The size of gas particles is small compared to the space between the particles When gas particles collide with the wall of a container, they exert no pressure.

Transcribed Image Text:

The image presents statements for evaluation regarding the kinetic molecular theory of gases. Here are the details of each statement: 1. **Statement 1**: "Because the space between gas particles is large, gas particles exert no attractive forces on each other." 2. **Statement 2**: "The kinetic energy of gas particles is independent of the temperature." 3. **Statement 3**: "When gas particles collide with each other, they stick together and form a larger particle." 4. **Statement 4**: "A gas consists of particles that move randomly and rapidly." 5. **Statement 5**: "The size of gas particles is small compared to the space between the particles." 6. **Statement 6**: "When gas particles collide with the wall of a container, they exert no pressure." These statements are structured within bordered text boxes, arranged in two columns and three rows. The task is to select which of these statements accurately apply to the kinetic molecular theory of gases, which describes the behavior of gas particles in terms of motion, energy, size, and interactions.