Does padding more zeros to the smaller vector give worse result in finding Euclidean Distance?

I have two sets of numbers for which I want to find the Eucledian distance. If one set has only 3 values and the other has 20 values, will the euclidean distance be proper if I pad 17 zeros to the smaller set of numbers?

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The question makes no sense. Vectors of different length do not exist in the same space so there is no such thing as the distance between them. You need to embed one in the other first. –  Raymond Chen Apr 6 '13 at 14:01
Thank u so much for your reply. I have edited my question. Plz check out if you can get me now. –  Florence Gnana Poovathy Apr 16 '13 at 4:13
As far as I can tell, Raymond Chen's comment still applies. Three dimensional points and twenty dimensional points do not exist in the same space, so there is missing information. –  Patashu Apr 16 '13 at 4:16
My project is based on Speech signal processing where I find the Mel Frequency Cepstral Coefficients for carrying out spectral analysis of original and synthesized speech signals. Now I have the MFC coefficients (13 dimensional) in hand for which I want to find the Euclidean distance. For example, if I get 13*6 coefficients (I have 6 frames in input signal) for the original signal and 13*3 coefficients (3 frames in the synthesized signal) for the synthesized signal, how can I find the Euclidean Distance for these two sets of coefficients. –  Florence Gnana Poovathy Apr 16 '13 at 5:17
First you have to define what you mean by the Euclidean distance between two sets. There are multiple possibilities and you didn't say which one you want. Padding with zeros doesn't make sense since the zero point is as arbitrary as any other point. –  Raymond Chen Apr 16 '13 at 5:39