Medical holding apparatus and medical observation system

What is claimed is: 1. A medical holding apparatus for holding an imager capable of capturing an image of an observation object in an enlarged manner and outputting an image signal corresponding to the image, the medical holding apparatus comprising: a support including: a plurality of arms; and a plurality of joints to connect the plurality of arms, the support being configured to support the imager at a distal end thereof; a load applier arranged in at least one of the joints to apply a resistance load against operation of the at least one of the joints to the support; and a processor comprising hardware, the processor being configured to: set torque to be applied by the load applier based on an operating state of the imager; and apply a load corresponding to the set torque to the load applier when a rotation inhibit state of each of the arms of the support is released, wherein the processor is configured to set the torque based on an enlargement factor, a working distance, and a moving speed of the imager. 2. The medical holding apparatus according to claim 1 , further comprising: a driver to drive the support, wherein the processor is configured to apply a load corresponding to the set torque to the load applier when the rotation inhibit state of each of the arms of the support is released and the driver turns off drive of the support. 3. The medical holding apparatus according to claim 1 , wherein the processor is configured to calculate the torque by Equation of T TTL =T zoom +T WD −T v , where T TTL represents the torque, T zoom represents a parameter calculated from the enlargement factor, T WD represents a parameter calculated from the working distance, and T v represents a parameter calculated from the moving speed. 4. The medical holding apparatus according to claim 1 , wherein the load applier is arranged in each of two or more of the joints, and the processor is configured to set the torque independently for each of the joints. 5. The medical holding apparatus according to claim 1 , wherein the processor is configured to set the torque by using the enlargement factor, the working distance, and the moving speed, and a coefficient corresponding to displacement in a moving direction of the imager. 6. The medical holding apparatus according to claim 1 , wherein each of the joints includes: a fixing structure fixed to one of the two arms connected to each other; and a movable structure fixed to an other one of the two arms, the movable structure being rotatable relative to the fixing structure, and the load applier applies a resistance load against the rotation to the movable structure when the movable structure rotates relative to the fixing structure. 7. The medical holding apparatus according to claim 1 , wherein the load applier includes a magnetic fluid device. 8. The medical holding apparatus according to claim 1 , further comprising: a brake to inhibit rotation of each of the arms of the support. 9. A medical observation system comprising: an imager to capture an image of an observation object in an enlarged manner and output an image signal corresponding to the image; a support including: a plurality of arms; and a plurality of joints to connect the plurality of arms, the support being configured to support the imager at a distal end thereof; a load applier arranged in at least one of the joints to apply a resistance load against operation of the at least one of the joints to the support; and a processor comprising hardware, the processor being configured to: set torque to be applied by the load applier based on an operating state of the imager; and apply a load corresponding to the set torque to the load applier when a rotation inhibit state of each of the arms of the support is released, wherein the processor is configured to set the torque based on an enlargement factor, a working distance, and a moving speed of the imager.