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## windows Why doesn't ZIP Compression compress anything

### windows Why doesn't ZIP Compression compress anything

windows Why doesn't ZIP Compression compress anything. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale., The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale..

### windows Why doesn't ZIP Compression compress anything

windows Why doesn't ZIP Compression compress anything. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale., The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale..

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

### windows Why doesn't ZIP Compression compress anything

windows Why doesn't ZIP Compression compress anything. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale., The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale..

windows Why doesn't ZIP Compression compress anything. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale., The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale..

### windows Why doesn't ZIP Compression compress anything

windows Why doesn't ZIP Compression compress anything. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale..

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

## windows Why doesn't ZIP Compression compress anything

windows Why doesn't ZIP Compression compress anything. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale., The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale..

### windows Why doesn't ZIP Compression compress anything

windows Why doesn't ZIP Compression compress anything. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale., The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale..

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

windows Why doesn't ZIP Compression compress anything. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale., The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale..

### windows Why doesn't ZIP Compression compress anything

windows Why doesn't ZIP Compression compress anything. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale., The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale..

### windows Why doesn't ZIP Compression compress anything

windows Why doesn't ZIP Compression compress anything. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale..

• windows Why doesn't ZIP Compression compress anything
• windows Why doesn't ZIP Compression compress anything
• windows Why doesn't ZIP Compression compress anything

• The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale. The answer is really easy: you can't!... a single bit is represented in the most compact manner possible. Fair enough, let us take a bigger example, how would you compress a binary string like 0111 0111 0100 0111? Well because we already know that looking at the individual bits won't help us at all, we know that we have to look at a bigger scale.

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