6. This is known as the origin of light elements.
a. Stellar Nucleosynthesis
c. R-Process
b. Primordial Nucleosynthesis
d. Supernova Nucleosynthesis
7. It is also known as nuclear fusion and the formation of new nuclei actions
in the early stages of development of the universe.
a. Nucleosynthesis
c. R-Process
b. S-Process
d. Singularity
8. In this process there's a buildup of a VERY heavy isotope, then as beta-
decays occur, you march up in atomic number and produce heavy product .
a. S Process
c. Nuclear Fission
b. R-Process
d. Proton-Proton Reaction
9. These are elements with atomic numbers beyond 103.
a. Super Hevy Elements c. Lightest Element
b. Gases Elements
d. Halogens
10. This occurs in the main sequence of stars.
a. Stellar Nucleosynthesis
c. R-Process
b. Primordial Nucleosynthesis d. Supernova Nucleosynthesis
11. It is a device that is used to speed up the protons to overcome the
repulsion between the protons and the target atomic nuclei by using magnetic
and electrical fields.
a. Spectroscopy
c. Particle Accelerator
b. Particle Decelerator
d. Microscope
12. He created a classification of elements based on their atomic weight.
a. Rutherford
c. Millikan
b. Dalton
d. Mendeleev
13. It is a one-dimensional point which contains a huge mass in an
infinitely small space.
a. Nucleosynthesis
c. Singularity
b. Dilation
d. R-process
14. He noticed that shooting electrons at elements caused them to release x-
rays at unique frequencies.
a. Mendeleev
c. Moseley
b. Millikan
d. Serge
15. He synthesized element with atomic number 43 using a linear
particle accelerator.
a. Ernest Rutherford
b. Ernest Lawrence
c. Dmitri Mendeleev
d. John Dalton​