An experimental device which enables to measure the electromagnetic fo
rce working toward the metallic ball in the cold crucible was invented
to obtain the basic data on the installation and the operation for th
e optimum levitation melting. The levitation force at the arbitrary po
sition of metallic ball could be measured directly under supplying the
electric power. By this device, levitation forces were measured using
balls made of different kind of metals under various shapes of cold c
rucibles. The results obtained are as follows. (1) Levitation forces d
epended upon the electric resistivity of metallic ball. Low resistivit
y metals such as copper could be levitated easily but ferromagnetic su
bstance such as iron could not be levitated below Curie temperature. (
2) Levitation forces varied considerably with metallic ball position a
nd coil position, and these behavior were influenced by the number of
slits that regulated both magnetic flux and eddy current.