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Noise Level : Moderate Visual Requirements: Color discrimination, Depth perception, Far visual acuity, Near visual acuity Hazards: Biological, Chemical, Dust, Electrical, Fumes/Gases/Odors, Radiation
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, Seeing, Identifying colors, Depth perception, Hearing (with aid), Hearing (without aid), Writing, Counting, Reading, Telling time Travel by car 40% of time, Inside, Outside, Excessive heat, Excessive cold
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Discrimination, Depth Perception Hazards: Biological, Chemical, Sharp Objects/Tools, Dust, Fumes/Gases/Odors #UAMSNurses Salary Information: Commensurate with education and experience Required Documents to Apply
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Lbs. or more Physical Environment: Inside medical Facility Noise Level: Moderate Visual Requirements: Near Visual Acuity, Far Visual Acuity, Color Discrimination, Depth Perception, Peripheral Vision
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Environment: Inside medical Facility Noise Level: Moderate Visual Requirements: Color discrimination, Depth perception, Far visual acuity Near visual acuity Hazards: Biological, Dust, Fumes/Gases/Odors
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development in MSAR and the GBA as a whole. In addition, UM is currently establishing a campus in the Guangdong-Macao In-Depth Cooperation Zone in Hengqin, which is expected to be operational in 2028. With
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, Depth Perception, Peripheral Vision Hazards: Biological, Chemical, Electrical, Radiation, Sharp Objects/Tools, Dust Salary Information: Commensurate with education and experience Required Documents
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Requirements: Color discrimination, Depth perception, Far visual acuity Near visual acuity Hazards: Biological, Dust, Fumes/Gases/Odors, Radiation, Sharp objects/tools Salary Information: Commensurate with
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Level: Moderate Visual Requirements: Color discrimination, Depth perception, Far visual acuity Near visual acuity Hazards: Biological, Dust, Fumes/Gases/Odors, Radiation, Sharp objects/tools #UAMSNurses
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Associação do Instituto Superior Técnico para a Investigação e Desenvolvimento _IST-ID | Portugal | 3 months ago
): the objective is to investigate whether miniature depth sensors (VL53L5CX) embedded in the palm and finger phalanges of a robotic hand can improve approach-phase control in grasping tasks. The work includes