The "impulse function" is not actually a function but a distribution, and its value at t=0 is not defined.
- What is the magnitude of unit impulse function at t 0?
- What is the impulse function when T 0?
- What is the value of δ 0 such that δ n is the unit impulse function?
- How do you find impulse function?
What is the magnitude of unit impulse function at t 0?
If we take the limit as T→0, we get a pulse of infinite height, zero width, but still with an area of one; this is the unit impulse and we represent it by δ(t).
What is the impulse function when T 0?
At the origin (t = 0) the amplitude of impulse signal is infinity so that the area under the curve is unity. The continuous-time impulse signal is also called Dirac Delta Signal.
What is the value of δ 0 such that δ n is the unit impulse function?
What is the value of d[0], such that d[n] is the unit impulse function? Explanation: The unit impulse function has value 1 at n = 0 and zero everywhere else.
How do you find impulse function?
Given the system equation, you can find the impulse response just by feeding x[n] = δ[n] into the system. If the system is linear and time-invariant (terms we'll define later), then you can use the impulse response to find the output for any input, using a method called convolution that we'll learn in two weeks.