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The existence of atoms explains the law of definite proportions by suggesting that chemical substances are made up of atoms that combine in fixed ratios. Each atom has a specific mass and combining these atoms in fixed proportions leads to compounds with consistent ratios of elements. This consistency supports the law of definite proportions, which states that a compound will always contain the same elements in the same ratio by mass.
AGGRESSIVE
yes
A postal office could be a life example of a Golgi Body.
A butterfly or Taj Mahal
Proportions are used in real life to determine prices of things.
Application of definitApplication of definite Integral in the real life
What are the Applications of definite integrals in the real life?
Foo
Real life is a real life example!
If the mass proportions of the original substances do not equal these definite proportions, there will something of one of the original substances be left over. Note that this is special, it could as well have turned out to be possible for substances to combine in any proportion. So we find the law of definite proportions. Now we should be baffled and wonder how on Earth could that be so? And then we could think of substances being made of small particles (atoms) or groups of such particles (molecules) to explain the laws of nature that we found. So the laws of definite proportions and multiple proportions are (partially) proof for the existence of atoms which combine into molecules. The laws are the real thing and atoms and molecules and their chemical formulas are the ideas we make to understand the laws.
a Television is a real life example of a Cube A dice is a real life example of a cube
The existence of atoms explains the law of definite proportions by suggesting that chemical substances are made up of atoms that combine in fixed ratios. Each atom has a specific mass and combining these atoms in fixed proportions leads to compounds with consistent ratios of elements. This consistency supports the law of definite proportions, which states that a compound will always contain the same elements in the same ratio by mass.
a real life example of an octagon is a stop sign.
A real life example is the chloroplasts found in plant cells.
A real life example of a cliff are the white cliffs of Dover.
A pennant is a real life example of an isosceles triangle.