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The Concept Map you are trying to access has information related to: FIR Frequency Response does not affect Frequency, Suddenly Applied Signals generate Steady State Response, Suddenly Applied Signals generate Transient Response, Magnitude ( Gain ) multiplies Magnitude, Fourier Transform of FIR Impulse Response, Phase generates Delay, Phase adds to Phase, Input Complex Exponential Signals characterised by Magnitude, Input Complex Exponential Signals characterised by Frequency, Input Complex Exponential Signals characterised by Phase, FIR Frequency Response characterised by Magnitude ( Gain ), FIR Frequency Response characterised by Phase, FIR Frequency Response characterised by Conjugate Symmetry, FIR Frequency Response characterised by Periodicity ( 2pi ), Multiple Signals follow Principle of Superposition, Input Complex Exponential Signals can be Suddenly Applied Signals, Input Complex Exponential Signals can be Multiple Signals, Input Complex Exponential Signals can be Signals Defined Over Doubly Infinite Interval, FIR Frequency Response determined by Fourier Transform, Signals Defined Over Doubly Infinite Interval generate Steady State Response, FIR Frequency Response affects Input Complex Exponential Signals