Answer:
The Nyquist sampling theorem states that the sampling frequency must be at least twice of the highest frequency component present in the signal.
Mathematically,
Samling rate ≥ 2×fmax
Step-by-step explanation:
We know that sound is an analog signal comprising of several different frequencies. We convert this analog signal into a digital signal by means of an analog-to-digital converter (ADC) for the purpose of storage and transmission.
For accurate and faithful analog to digital conversion, we need to take some samples per second which is basically called "Sampling rate".
So how many samples do we need?
This is where Nyquist sampling theorem comes into the picture.
Nyquist Sampling theorem:
The Nyquist sampling theorem states that the sampling rate must be at least twice of the highest frequency component present in the signal.
Mathematically,
Samling rate ≥ 2×fmax
This is the minimum sampling frequency that is required to avoid distortion of the signal.
If the Nyquist criteria is not followed then some of the information in the analog signal will be lost and the sound will not be accurately converted into the digital signal.
Therefore, a higher sampling rate would result in better reproduction of sound as compared to a lower sampling rate.
On the other hand, a higher sampling rate would also take more storage memory and reduced transmission speed.
Answer:
k = 28
Step-by-step explanation:
Answer:
x > -5
Step-by-step explanation:
Basically you set it up 43/8+26/5. When you do that multiply 5 by 8 so the donominiter will be 40. Then multiply 5 by 43 which is 215 and 8 by 26 which is 208 so now you have the same donominiter... 215/40+208/40 add 215 to 208 that's 423/40 then you see how many times does 40 divide into 423 that's 10 and then you had 23 left so put 10 23/4 .if it was a case like 10 3/12 you could simplify it and that would be 10 1/4 ...
Answer:
263.76
Step-by-step explanation:
The formula is pi(3.14) times r(radius squared) (6^2) times h(height)( 7) over 3
3.14 times 36 times 7/3