Electromagnetic Radiations (EMR)
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Mar 31, 2016
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Electromagnetic Radiations (EMR)
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Electromagnetic Radiation a) These are produced by the oscillation of electronic charge and magnetic field residing on the atom. The electric and magnetic components are mutually perpendicular to each other and are coplanar. b) These are characterized by their wavelengths or frequencies or wave numbers. c) The energy carried by an EMR is directly proportional to its frequency. The emission or absorption of radiation is quantized and each quantum of radiation is called photon . Electromagnetic Radiations (EMR)
d) All types of radiations travel with the same velocity and no medium is required for their propagation. They can travel through vacuum. When a visible light (a group of electromagnetic radiations) is passed through a prism, it is split up into seven colors which correspond to definite wavelengths. This phenomenon is called dispersion . Absorption spectrum When a EMR of certain wavelength range are passed through the substance under analysis , the radiations of certain wavelengths are absorbed by the substance and produce a dark pattern of lines which correspond to the wavelengths absorbed is called absorption spectrum.
Units U sed in Spectroscopy Wavelength: It is the distance between the two adjacent crests (C-C) or troughs (T-T) in a particular wave and denoted by λ (lambda). It can be expressed in Angstrom/in millimicrons (mµ). 1 Å = 10 -8 cm; 1 mµ = 10 -7 cm For UV , λ < 3800 Å
Units Used in Spectroscopy Wave number: It is defined as the total number of waves which can pass through a space of one cm. It is the reciprocal of wavelength and is expressed in cm -1 . If the wavelength of a light is known, the corresponding wave number can be calculated. For example, if the wavelength of a radiation is 2.5 µ, then the corresponding wave number can be calculated as follows; λ = 2.5 µ = 2.5 X 10 -4 cm Thus, Wave number, = 4000 cm -1
Units Used in Spectroscopy Frequency: It is defined as the number of waves which can pass through a point in one second. It is expressed as ν is cycles/sec or in Hertz (Hz) where 1 Hz = 1 cycle sec -1 Frequency is inversely proportional to the wavelength, thus greater the wavelength, smaller is the frequency. Frequency, Where, C = Velocity of EMR = 2.998 x 10 10 cm sec -1
Units Used in Spectroscopy Frequency continued……… The wavelength of the visible light is 3800 -7600 Å, calculate the corresponding frequency range. λ = 3800 Å = 3800 x 10 -8 cm Thus, = b) For λ = 7600 Å, do it by yourself
Units Used in Spectroscopy Energy : Energy of a wave of the particular radiation can also be calculated by applying the following formula; Where, h = Planck’s constant ν = Frequency of radiation in cycles per sec / cycles sec -1 c = Velocity of EMR λ = Wavelength in cm Unit of energy is ergs or kcalmole -1 or kilo Joules Practice energy calculation related mathematics.
Spectroscopy : Measures the interaction of a compound with electromagnetic radiation of different wavelengths . There are three different types of spectroscopy; 1. Ultraviolet-Visible (UV-Vis) Spectroscopy measures the absorption of ultraviolet and visible light by bonds in an organic compound. Bonds of different types and with different extents of conjugation (C=C, C=O, C=C – C=C, aromatic) absorb energy of different wavelengths. 2. Infrared (IR) Spectroscopy measures the absorption of infrared (heat) radiation by organic compounds. Different functional groups (C=O, -OH) absorb energy of different wavelengths . 3 . Nuclear Magnetic Resonance Spectroscopy (NMR) measures the absorption of radio waves by C and H in a magnetic field. Different kinds of C and H absorb energy of different wavelengths. Spectroscopy
Regions of Different E lectromagnetic R adiations
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