1. How is a model of an atom different from a real atom?
A. A model of an atom is not as big as an actual atom.
B. A model of an atom is the same as a real atom.
C. A model of an atom is more complex
than a real atom.
D. A model of an atom is not as small as an actual atom.
I think D. but I'm probally wrong.
A
B
B
D
D
100% correct
joe Biden does not rule
I agree.
Ok thanks
I agree, too, but I don't like any of the answers. D is the best answers there.
Thanks The Anonymous above me is correct i got 100%
Anonymous is correct.
To determine the correct answer, let's break down the options:
A. A model of an atom is not as big as an actual atom.
This answer seems unlikely, as the size of a model can vary, and it doesn't necessarily mean it is smaller than an actual atom.
B. A model of an atom is the same as a real atom.
This answer is incorrect since a model represents an atom and is not the actual atom itself.
C. A model of an atom is more complex than a real atom.
This answer is more plausible. A model of an atom is a simplified representation used to visualize and understand the structure and behavior of atoms. Real atoms are much more complex, consisting of a nucleus (containing protons and neutrons) surrounded by electrons in various energy levels.
D. A model of an atom is not as small as an actual atom.
This answer is incorrect since models can be made in various scales, and they are often created larger than the actual atom to improve visibility and understanding.
Based on the explanations above, the most accurate answer is C. A model of an atom is more complex than a real atom.