# How is there an inverse relation between precision and recall?

What I know? Firstly,

Precision= $$\frac{TP}{TP+FP}$$

Recall=$$\frac{TP}{TP+FN}$$

What book says?

A model that declares every record has high recall but low precision.

I understand that if predicted positive is high, precision will be low. But how will recall be high if predicted positive is high.

A model that assigns a positive class to every test record that matches one of the positive records in the training set has very high precision but low recall.

I am not able to properly comprehend how there is inverse relation between precision and recall.

Here is a doc that I found but I could not also understand from this doc as well.

If the model declares every record positive, then $$TP=P$$ and $$FP=N$$ (and $$FN=TN=0$$). So recall is 1; and the precision is $$P/(P+N)$$, i.e. the proportion of positives in the sample. (That may be "low" or not.)
Rather than addressing your second quote immediately, I think it might be beneficial to just examine (nearly) the opposite case to the above. Suppose your classifier only makes one positive prediction; assuming the model rank-orders reasonably well, it's very likely this is a true positive. Then $$TP=1$$, $$FP=0$$, $$TN$$ and $$FN$$ are both large. Then precision is 1, and recall is very small.