Since RADAR uses electromagnetic radiation, which travels at the speed of light and nothing can travel faster than the speed of light this can't be done.
Also RADAR and most other types of electromagnetic radiation cannot penetrate the crust of the earth. To get imagery of the earth's interior SONAR using very low frequency sound waves produced by natural earthquakes is needed.
The only type of electromagnetic radiation capable of penetrating the whole earth (and possibly forming images) is the very very high energy ultrahard gamma rays, but gamma rays of this energy would kill everything living anywhere on or in the whole earth in only a few seconds of exposure! The only possible known source of such gamma rays are nearby gamma ray bursters, but (luckily for us) so far the only gamma ray bursters observed are at cosmological distances.
Particles called neutrinos penetrate the earth easily and at more than 99.9% of the speed of light, but they are very difficult to detect and the solid materials of the earth are so transparent to neutrinos (the entire thickness of earth is more transparent to neutrinos than one inch of the best quality glass is to visible light) that no images could be made. Most of the neutrinos passing through the earth are produced in the sun as a byproduct of the nuclear fusion that powers the sun.
they move atomic nuclei faster and faster until they have reached very high speeds
Leptons have mass.According to special relativity, no particle with mass can travel at or faster than the speed of light. It would take infinite energy to do so.
Well, tachyons are particles that travel faster than the speed of light. Travel could be referring to how they move across the universe (if they exist) or somehow splitting a object down to the atoms and attaching it to a tachyon particle and sending it through space and time.
The particle theory is a good theory that's sort of simple to understand. The particle theory consists of five parts. 1) All matter is made up of small particles 2) The particles are attracted to each other. 3) Particles are always moving. 4)When heated, particles move faster and move farther apart. 5) There are spaces between each particle.
In fact, it travels faster, in a liquid, than in air.In fact, it travels faster, in a liquid, than in air.In fact, it travels faster, in a liquid, than in air.In fact, it travels faster, in a liquid, than in air.
No. There's a reason that a beta particle can only penetrate a couple of mm and that a gamma particle can go through everything.
Sound waves travel through particle vibration, and when the temperature is high, the particles vibrate faster, thus the sound must travel faster with particles.
It moves Faster.
The more a solution is agitated, the faster the rate of the solution The smaller the particle size, the faster it will dissolve The higher the temperature, the faster rate of dissolving
It depends upon the mass of the particles also. Assuming equal mass, then the slower moving particle gains some energy, and the faster moving particle loses energy. However, if the slower moving particle had greater mass, it could transfer energy to the faster moving particle.
The smaller the particle the faster it dissolves. This is because the process by which a solute dissolves takes place at the surface of the solvent. That means the larger the surface area of a particle or solute, the faster the solute will dissolve.
It can be hotter (and so be moving faster) F=ma
Smaller the particle, faster the dissolution. By the way, you spelled dissolution incorrectly.
It transfers the heat energy to kinetic energy meaning that the particle reacts much faster
Tachyon, meaning swift particle, was the name given by Dr. Feinberg at M.I.T. to a theoretical particle which travels faster than the speed of light. According to modern physics, no particle can go faster than the speed of light. To entertain the notion of a faster-than-light particle, one must step into a theoretical world where time travels backward and objects have negative mass.
As powder because the smaller the particle size the faster the reaction
Heat, Stirring, Particle size,