(a) State two assumptions of Dalton's atomic theory of 1808 - Leaving Cert Chemistry - Question 5 - 2010
Question 5
(a) State two assumptions of Dalton's atomic theory of 1808.
(b) The electron was the first of the sub-atomic particles to be discovered. It was identified in expe... show full transcript
Worked Solution & Example Answer:(a) State two assumptions of Dalton's atomic theory of 1808 - Leaving Cert Chemistry - Question 5 - 2010
Step 1
State two assumptions of Dalton's atomic theory of 1808.
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Answer
Atoms are small and indivisible particles.
All atoms of a given element are identical in mass and properties.
Step 2
Name the scientist who, about 1897, measured the ratio of charge to mass of the electron, e/m.
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Answer
The scientist is J.J. Thomson.
Step 3
Name the scientist who, about 1910, proved that the electrons in an atom reside in an electron cloud surrounding a small dense positive central nucleus.
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Answer
The scientist is Ernest Rutherford.
Step 4
Name the scientist who, about 1911, measured the charge on the electron, e.
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Answer
The scientist is Robert Millikan.
Step 5
Outline Bohr's atomic theory based on the hydrogen emission spectrum.
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Answer
Bohr's atomic theory states that:
Electrons occupy fixed energy levels (orbits) around the nucleus.
An electron in a lower energy level can be excited to a higher energy level by absorbing a specific amount of energy (photon).
The electron will emit a photon and fall back to a lower energy level when it returns to its ground state.
The energy of the emitted/absorbed photon corresponds to the difference in energy between the two energy levels.
Step 6
State two limitations of Bohr's theory that led to its modification.
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Answer
Bohr’s model only worked for hydrogen and could not accurately predict the spectra of other elements.
It did not take wave-particle duality into account, limiting its applicability to multi-electron systems.
Step 7
Define atomic orbital.
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Answer
An atomic orbital is a region (space) around the nucleus of an atom where there is a 99% probability of finding an electron, indicating where the electron is most likely to be found.
Step 8
Draw the shape of the p-orbital.
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Answer
The p-orbital has a dumbbell shape:
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---+--- ---+---
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Step 9
State the maximum number of electrons that can be accommodated in a p-orbital.
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Answer
The maximum number of electrons that can be accommodated in a p-orbital is 6.
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