Solar flares
A particle accelerator used to accelerate particles at high speeds will not fuse together and create a new element. The particle accelerator uses electromagnetic fields to move charged particles and contain them in well defined beams.
There's incredible amount of violence going on from its atmosphere. Storms on Jupiter can generate wind speeds of 800 km/h, with intense lightning, radiation, and charged particles. Life as we know it would be incapable of surviving on Jupiter.
They move at different speeds.
exerting lots of kinetic energy into gas particles speeds up the collision theory
No, but if the system is at equilibrium the speeds of all the molecules (assuming an ideal liquid) will be characterized by a Boltzman distribution.
Yes, a synchrotron can accelerate charged particles to high speeds because of this compensation.
No. The particles have different speeds, and the average speed is used in calculations or discussions.
A synchrotron has a time-dependent guiding magnetic field.
The subatomic particle that has a positive charge is called a proton. A proton can be found in the nucleus, the centre of the atom. Around the nucleus negative charged particles, called electrons, revolve at various speeds.
A particle accelerator used to accelerate particles at high speeds will not fuse together and create a new element. The particle accelerator uses electromagnetic fields to move charged particles and contain them in well defined beams.
Lots of differences. For example: light is a flow of electrically neutral particles (called photons), that move at the speed of light (at least, in a vacuum). Electricity is a flow of charged particles - often electrons - that move at speeds below the speed of light.
Lots of differences. For example: light is a flow of electrically neutral particles (called photons), that move at the speed of light (at least, in a vacuum). Electricity is a flow of charged particles - often electrons - that move at speeds below the speed of light.
Particle collision usually refers to two subatomic particles slamming into each other at high speeds causing them to break into smaller particles. These speeds are created by particle accelerators.
At high altitude air is less dense. This means that any ionised air molecules (or charged pollution particles) in the air have less other air molecules (or pollution particles) to collide with as these ionised/charged particles accelerate towards the electrical conductors they are attracted to (with the opposite electric potential) . As they have a better chance at accelerating for longer without being slowed down by colliding with other air molecules/ pollution particles (as they would in more dense air) they are able to reach higher speeds on average and so can cause a Townsend avalanche more easily A Townsend avalanche is where a charged particles impact causes more charged particles to be created and these accelerate and impact with other particles creating more charged particles, a kind of chain reaction. Note: there is actually a knee point in this trend, where if the pressure is reduced too much there are not enough molecule's/particles close together so an avalanche breakdown of the air is less likely to occur. FYI: This effect is related to Paschen's law
A catalyst
There's incredible amount of violence going on from its atmosphere. Storms on Jupiter can generate wind speeds of 800 km/h, with intense lightning, radiation, and charged particles. Life as we know it would be incapable of surviving on Jupiter.
By large distances between particles that are moving at high speeds