The reaction is:
U-238(alpha)Th-234
Equation
You place X and Y on the same side to get a standard equation.
Since the geraph is a picture of the equation, it's almost a father and son relationship. The equation begets the graph. The graph, in turn, admires and looks up to the equation.
3x + y = 7 First, turn the equation into the slope-intercept form, y = mx + b, where m is the slope of the graph that that equation represents (solve for y).3x + y = 7 subtract 3x to both sidesy = -3x + 7So you clearly see that the slope is -3.
by dividing
If a uranium-244 atom undergoes alpha decay, it will become an atom of thorium-240. If we wrote an equation, it might look like this:92244U => 90240Th + 24He++The uranium-244 is transmuted into throium-240, and the alpha particle, which is a helium-4 nucleus (and represented as such) emerges at the tail end of the equation.
Equation
This is a mistake. Nuclear energy is non-renewable, because it uses up uranium which has been formed billions of years ago in some sort of cosmic explosion, and is no longer being made, at least in our solar system. Note that some people advocate using thorium to make fissile uranium, this is possible but then eventually you would use up all the thorium on earth so the same argument applies. Breeder reactors are another aspect of nuclear energy, these turn non fissile uranium into fissile plutonium, but the same argument about eventually running out of uranium applies.
it doesn't.
Radium is considered a rare element in the Earth's crust, with an average abundance estimated to be around 1 part per trillion. It is found in very small quantities in certain types of rocks, soils, and minerals, and is typically obtained through the decay of uranium and thorium. Due to its rarity and radioactive nature, radium is not commonly used in commercial or industrial applications.
Uranium dioxide (UO2) is more suitable as nuclear fuel for commercial nuclear reactors than uranium metal.
The Fuel Rods are primarily found inside the Reactor Core itself, It is mainly Uranium or Thorium which provides a nuclear reaction that produces intense amount of heat in whih where water is converted in to steam and made to turn the turbines.
If you think to table salt, radiations from uranium haven't an influence.
By heating up to melting point.
Yes, if you get it hot enough, it will melt.
Pure Uranium is radioactive; thus harmful. Inside a nuclear reactor, atoms get split. When the Uranium atom is split, it releases a huge amount of energy. This energy is called nuclear energy. Also the normal Uranium is not used in reactors. The Uranium that is used is enhanced; it is an isotope of Uranium. Uranium-237 and Uranium-238 are used in nuclear reactors. I hope this answer was useful for you.
1. Uranium is important for nuclear reactors, for the production of clean energy (no contribution to global warming and air pollution). 2. Uranium is important for nuclear weapons. 3. Uranium has many other minor applications in chemical industry, ceramics, glass industry, electronics, photography, for armors, etc.