If two molecules traveling at the same speed collide head on, they will exchange energy and momentum. This can result in the molecules bouncing off each other in opposite directions or sticking together to form a new molecule. The outcome depends on the specific properties and interactions of the molecules involved.
When frequency is high, the speed typically remains constant. This is because the speed of a wave is determined by the medium through which it is traveling, not by the frequency of the wave.
The difference between the two speeds. So if one car is traveling at 60mph and the other is 70mph, it would be a 10mph difference since they are traveling in the same direction. Now, if they were colliding head on, it would be 130mph total speed.Also, 2 cars traveling at exactly the same speed and direction (assuming they start a certain distance apart) will never collide and will maintain that exact distance they started apart.
In a gas, if volume decreases, the molecules have less space to move and collide with each other more frequently, increasing speed. In a liquid or solid, volume changes typically have less direct impact on speed compared to gases.
When two objects collide, they exert forces on each other that can cause changes in their motion, such as changes in speed or direction. The impact of the collision depends on factors like the mass and velocity of the objects involved.
Pressure is higher when molecules move faster because they collide with the walls of the container more frequently and with greater force. Slower-moving molecules result in lower pressure as they collide less frequently and with less force.
Slow down and the temperature drops.
Yes, molecules collide more frequently in higher temperatures because they move faster and have higher kinetic energy. This increased speed and energy lead to more frequent collisions between molecules.
The temperature and speed remain constant.
If they speed up fast enough, they turn to steam (water vapor).
Molecules have more kinetic energy when they are moving. This energy is proportional to their speed and mass, making them collide with each other and their surroundings.
When molecules freeze the rate of speed they go at tends to slow down
the objects reverse their direction of motion after the collision but still move with the same speed.! (:
When frequency is high, the speed typically remains constant. This is because the speed of a wave is determined by the medium through which it is traveling, not by the frequency of the wave.
They speed up and moves faster and faster.
Rising temperature increases the kinetic energy of molecules in a liquid, causing them to move more quickly and collide more frequently. This increased motion leads to faster diffusion as molecules spread out more rapidly.
The difference between the two speeds. So if one car is traveling at 60mph and the other is 70mph, it would be a 10mph difference since they are traveling in the same direction. Now, if they were colliding head on, it would be 130mph total speed.Also, 2 cars traveling at exactly the same speed and direction (assuming they start a certain distance apart) will never collide and will maintain that exact distance they started apart.
The water molecules increase their speed