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Chemistry (Salters) - Unit 5 > CD - Colour > Flashcards

CD - Colour Flashcards

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1
Q

What is electronic transition

A

Where electrons become excited and move to higher energy levels when their molecule absorbs energy

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2
Q

Describe which wavelengths cause a compound to seem coloured when electrons absorbs specific wavelengths of light

A

Only the wavelengths not absorbed by the electrons will be transmitted. These wavelengths are what give the compound colour

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3
Q

Define the function of a spectrometer

A

Spectrometers show which wavelengths of visible and UV light have been absorbed by a test sample

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4
Q

Explain why transitional metals appear coloured when they are bonded to ligands

A
  • Transition elements form ions with incomplete d subshells
  • Without ligands, all the orbitals in the 3d subshells have the same energy
  • When ligands bond to the ions, some orbitals gain more energy than others. This splits the 3d orbitals into two different energy levels
  • Electrons tend to occupy lower orbitals, but can be promoted to higher levels when they absorb light. The change in energy corresponds to the frequency of light absorbed
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5
Q

Give factors that effect the difference in energy levels for the splitting of d orbitals for complex metal ions

A
  • The central metal ion
  • The ligands
  • The coordination number
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6
Q

Explain how the type covalent bonds effects the energy needed to excite electrons

A
  • Single bonds are formed when 2 atomic orbitals, each holding 1 electron each, come together to form 2 molecular orbitals. Since each orbital can hold 2 electrons, only 1 is filled so the energy gap between the orbitals is very large
  • Double bonds have 4 atomic orbitals so the energy gap between the highest filled and lowest empty molecular orbital is smaller than a single bond
  • Delocalised systems have many molecular orbitals. These have a much smaller energy gap than in a double bond so can absorb visible light
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7
Q

Explain in terms of molecular orbitals why adding functional groups to increase the size of a delocalised system changes the colour of the compound

A

The more delocalisation, the more molecular orbitals form and thus the closer the energy levels between orbitals.
A decrease in the energy gap means less energy is needed to promote the electrons to the higher orbitals so a lower frequency of light is absorbed

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8
Q

Explain conjugation

A

When C=C and C-C alternate, a delocalised system is formed

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Chemistry (Salters) - Unit 5 (15 decks)

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