The　magnetization　of　water　and　its　magnetism　are　experimentally　researched　and　confirmed　by　virtue　of　the　suspended　method　of　magnetized　water　droplets　in　a　superconductive　magnetic　field　having　a　gradient　distribution　of　strength　with　a　maximum　value　of　16.12　T,　generated　by　the　superconductive　Nb3Zn　and　NbTi　coils.　The　experiments　exhibit　that　the　magnetized　and　purified　water　droplets　are　all　suspended　in　the　magnetic-field,　the　interaction　of　two　suspended　water　droplets　is　also　observed,　and　recorded　by　a　camera.　Based　on　these　experimental　results,　we　revealed　and　built　the　mechanism　of　suspension　of　magnetized　water　droplets　using　the　theory　of　magnetism,　i.e.,　the　balance　between　the　gravity　of　magnetized　water　droplet　and　the　magnetic　attraction　force　accepted　by　it　arising　from　the　superconductive　magnetic　field　results　in　their　suspension　states.　We　explained　the　experimental　results　using　this　mechanism　and　have　observed　also　that　the　suspended　water　droplets　fall　off　the　bottom　of　the　sample　tube　if　the　electric　current　in　the　device　is　broken　off.　These　results　verified　just　the　correctness　of　this　mechanism　of　suspension.　On　the　basis　of　the　mechanism　of　suspension　and　these　experimental　results,　we　certified　and　affirmed　that　the　magnetized　waters　have　certain　magnetism.　This　conclusion　will　promote　the　development　of　investigation　of　magnetized　water　and　its　application.