Nebulars do not explode, your question makes no sense.
they affect one another's motion only when they collide.
Unless the particles collide
All particles of all things are in constant motion. Particles in a liquid collide, but the rate is subdued by the viscosity of the liquid.
Yes, particles in a container can collide with the walls of the container due to their random motion. This collision with the container walls is responsible for creating pressure inside the container.
When two objects collide, they exert forces on each other. This impact can change the direction, speed, or shape of the objects, affecting their motion. The objects may bounce off each other, stick together, or deform depending on the force of the collision.
Yes, particles in steam collide with each other due to their high kinetic energy and constant random motion. These collisions contribute to the pressure and temperature of the steam.
Gas molecules are in continuous random motion and they collide with each other.
Gas particles move in a random and constant motion, frequently colliding with each other and their surroundings. While they do not travel in perfectly straight paths, they do exhibit some degree of directional motion until they collide with other particles.
Yes, liquid particles collide randomly with each other due to their constant motion and interactions. These collisions influence the behavior and properties of liquids, such as viscosity and diffusion.
the objects reverse their direction of motion after the collision but still move with the same speed.! (:
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.
"Car" engines use controlled explosions (depending on how many cylinders) to convert straight line motion into rotating motion. The pistons in an engine (straight line motion) are driven downward due to the force created by the explosion of gasoline and air. The explosion is triggered by a spark caused by the spark plug. The force of the explosions are transmitted from the pistons to the connecting rods, then the crankshaft. (rotating motion) From there to the Transmission and finally, the Wheels.