Solar cooker with satellite dish

                                                     Solar cooker High School Project
   


Solar cooker

Chemical Element images/photos/Periodic Table of the Elements

  1 - H ( Hydrogen  Discharge tube)     

  2 - He (Helium Discharge tube)          

 3 - Li ( Lithium )                                   


  4 - Be ( Beryllium )                   

   5 - B (Boron)                              

   6 - C ( Carbon Diamond Graphite)


   7 - N ( Liquid Nitrogen) At atmospheric pressure, liquid nitrogen boils at −196 °C and  freezes at 63 K(−210 °C; −346 °F)

   8 - O (Oxygen)

   9 - F (Fluorine)


   10 - N e(Neon)


   11 - Na (Sodium) 


   12 - Mg (Magnesium)


   13 - Al (Aluminium)


   14 - Si (Silicon)


   15 - P (Phosphorus)


   16 - S (Sulfur)


  17 - Cl (Chlorine)


   18 - Ar (Argon)


   19 -K(Potassium)


   20 - Ca (Calcium)


   21 - Sc (Scandium)


   22 - Ti (Titanium)


   23 - V (Vanadium)


   24 - Cr (Chromium)


   25 - Mn (Manganese)


   26 - Fe (Iron)


   27 - Co (Cobalt)


  28 - Ni (Nickel)


   29 - Cu (Copper)


  30 - Zn (Zinc)


   31 - Ga (Gallium)


   32 - Ge (Germanium)


  33 -As (Arsenic)


   34 - Se (Selenium)


   35 - Br (Bromine)


  36 - Kr (Krypton)


   37 - Rb (Rubidium)


  38 - Sr (Strontium)


   39 - Y (Yttrium)


  40 - Zr (Zirconium)


  41 - Nb (Niobium)


   42 - Mo (Molybdenum)


   43 - Tc (Technetium)


   44 - Ru (Ruthenium)


   45 - Rh (Rhodium)


   46 - Pd (Palladium)


   47 - Ag (Silver)


   48 - Cd (Cadmium)


   49 - In (Indium)


   50 - Sn (Tin)


   51 - Sb (Antimony)


  52 - Te (Tellurium)


   53 - I (Iodine Crystals)


   54 - Xe (Xenon)


  55 Cs (Caesium)


   56 - Ba (Barium)


  57 - La (Lanthanum)


   58 - Ce (Cerium)


   59 - Pr (Praseodymium)


   60 - Nd (Neodymium)


   61 - Pm ( Promethium) being used as a light source for signals in a heat button.


     62 - Sm (Samarium)


   63 - Eu (Europium)


   64 - Gd (Gadolinium)


    65 - Tb (Terbium)


   66 - Dy  (Dysprosium)


    67 - Ho (Holmium)


    68 -Er (Erbium)


   69 - Tm  (Thulium)


    70 - Y (Ytterbium)


    71 - Lu (Lutetium)


    72 - Hf (Hafnium)


    73 - Ta (Tantalum)


    74 - W (Tungsten/Wolfram)


    75 - Re (Rhenium)


    76 - Os (Osmium)


    77 - Ir (Iridium)


    78 - Pt (Platinum)


   79 - Au (Gold)


    80 - Hg (Mercury)


    81 - Tl (Thallium)


    82 - Pb (Lead)


   83 - Bi (Bismuth)


   84 - Po (Polonium)


   85 - At (Astatine)


  86 - Rn (Radon colorless gas) only one radioactive gas in the nature


    87 - Fr (This sample of uraninite contains about 100,000 atoms (3.3×10−20 g) of francium-223 at any given time)


    88 Ra (Radium 226)


    89 - Ac (This uraninite ores have elevated concentrations of actinium)


   90 -Th (Thorium)


   91 - Pa (Protactinium)


    92 - U (Uranium) 235




   93 - Np (Neptunium)


   94 - Pu  (Plutonium)


   95 -Am (Americium)


   96 - Cm (Curium)


   97 -Bk (Berkelium)


    98 - Cf (Californium)


    99 - Es (Einsteinium) 


    100 - Fm (Fermium)

It was discovered in the debris of the first hydrogen bomb explosion in 1952, and named after Nobel laureate Enrico Fermi
Fermium is a synthetic element with the symbol Fm. It is the 100th element in the periodic table and a member of theactinide series. It is the heaviest element that can be formed by neutron bombardment of lighter elements, and hence the last element that can be prepared in macroscopic quantities, although fermium metal has not yet been prepared. A total of 19 isotopes are known, with 257Fm being the longest-lived one with a half-life of 100.5 days.
101 - Md  (Mendelevium)
Mendelevium is a synthetic element with the symbol Md (formerly Mv) and the atomic number 101. A metallic radioactive transuranic element in the actinide series, mendelevium is usually synthesized by bombarding einsteinium with alpha particles. It was named after Dmitri Ivanovich Mendeleev, who was responsible for the Periodic Table 

102 - No (Nobelium)
Nobelium is a synthetic element with the symbol No and atomic number102.The discovery of element 102 was first announced by physicists at the Nobel Institute in Sweden in 1957. The team reported that they created an isotope with a half-life of 10 minutes, decaying by emission of an 8.5 MeV alpha particle, after bombarding 244Cm with 13C nuclei. The activity was assigned to 251102 or 253102. The scientists proposed the name nobelium (No) for the new element. Later they retracted their claim and associated the activity to background effects.

  103 - Lr (Lawrencium)
Lawrencium is a radioactive synthetic chemical element with the symbol Lr and atomic number 103. In the periodic table of the elements, it is a period 7 d-block element and the last element of actinide series. Chemistry experiments have confirmed that lawrencium behaves as the heavier homologue to lutetium and is chemically similar to other actinides.

   104 - Rf (Rutherfordium)
Rutherfordium is a chemical element with symbol Rf and atomic number 104, named in honor of New Zealand physicist Ernest Rutherford. It is a synthetic element (an element that can be created in a laboratory but is not found in nature) and radioactive; the most stable known isotope, 267Rf, has a half-life of approximately 1.3 hours.

  105 - Db (Dubnium)

  106 - Sg (Seaborgium)

  107 - Bh  (Bohrium)

  108 - Hs  (Hassium)

   109 - Mt (Meitnerium)

   110 - Ds (Darmstadtum)

   111 - Rg (Roentgenium)

  112 - Cn (Copernicium)

   113 - Uut (Ununtrium)

   114 - Uuq (Ununquadium) Simulation of an accelerated Ca-48 ion about to collide with an Am-243 target atom.Ununquqdium

  115 -Uup (Ununpentium)

  116 - Uuh (Ununhexium)

117 - Uus (Ununspetium)

118 - Uuo (Ununoctium)



   
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