Let us assume that the relativistic velocity transformation (10.5) is correct (after all, that is in fact the case, and we'll derive it in class!). What can we then conclude from our computation? (You will need to find all the correct answers.) Let us assume that the relativistic velocity transformation (10.5) is correct (after all, that is in fact the case, and we'll derive it in class!). What can we then conclude from our computation? (You will need to find all the correct answers.) If momentum is conserved, then the classical formula p=mv is wrong. If the classical formula p=mv is correct, then momentum is not conserved. Either the classical momentum formula p=mv is incorrect or momentum is not conserved. The classical momentum formula p=mv is incorrect and momentum is not conserved