- Calibrate data collection equipment.
Occupations with related tasks Save Table: XLSX CSV
- Install, calibrate, or maintain sensors, mechanical controls, GPS-based vehicle guidance systems, or computer settings.
- Program farm equipment, such as variable-rate planting equipment or pesticide sprayers, based on input from crop scouting and analysis of field condition variability.
- Document and maintain records of precision agriculture information.
- Collect information about soil or field attributes, yield data, or field boundaries, using field data recorders and basic geographic information systems (GIS).
- Use geospatial technology to develop soil sampling grids or identify sampling sites for testing characteristics such as nitrogen, phosphorus, or potassium content, pH, or micronutrients.
- Create, layer, and analyze maps showing precision agricultural data, such as crop yields, soil characteristics, input applications, terrain, drainage patterns, or field management history.
- Compare crop yield maps with maps of soil test data, chemical application patterns, or other information to develop site-specific crop management plans.
- Analyze geospatial data to determine agricultural implications of factors such as soil quality, terrain, field productivity, fertilizers, or weather conditions.
- Identify spatial coordinates, using remote sensing and Global Positioning System (GPS) data.
- Analyze data from harvester monitors to develop yield maps.
- Apply precision agriculture information to specifically reduce the negative environmental impacts of farming practices.
- Demonstrate the applications of geospatial technology, such as Global Positioning System (GPS), geographic information systems (GIS), automatic tractor guidance systems, variable rate chemical input applicators, surveying equipment, or computer mapping software.
- Draw or read maps, such as soil, contour, or plat maps.
- Prepare reports in graphical or tabular form, summarizing field productivity or profitability.
- Provide advice on the development or application of better boom-spray technology to limit the overapplication of chemicals and to reduce the migration of chemicals beyond the fields being treated.
- Participate in efforts to advance precision agriculture technology, such as developing advanced weed identification or automated spot spraying systems.
- Analyze remote sensing imagery to identify relationships between soil quality, crop canopy densities, light reflectance, and weather history.
- Advise farmers on upgrading Global Positioning System (GPS) equipment to take advantage of newly installed advanced satellite technology.
- Identify areas in need of pesticide treatment by analyzing geospatial data to determine insect movement and damage patterns.
- Divide agricultural fields into georeferenced zones, based on soil characteristics and production potentials.
- Recommend best crop varieties or seeding rates for specific field areas, based on analysis of geospatial data.
- Contact equipment manufacturers for technical assistance, as needed.
- Install, calibrate, or maintain sensors, mechanical controls, GPS-based vehicle guidance systems, or computer settings.
- Program farm equipment, such as variable-rate planting equipment or pesticide sprayers, based on input from crop scouting and analysis of field condition variability.
- Adjust or maintain equipment, such as lasers, laser systems, microscopes, oscilloscopes, pulse generators, power meters, beam analyzers, or energy measurement devices.
- Repair or calibrate products, such as surgical lasers.
- Compute or record photonic test data.
- Maintain clean working environments, according to clean room standards.
- Document procedures, such as calibration of optical or fiber optic equipment.
- Set up or operate assembly or processing equipment, such as lasers, cameras, die bonders, wire bonders, dispensers, reflow ovens, soldering irons, die shears, wire pull testers, temperature or humidity chambers, or optical spectrum analyzers.
- Assist scientists or engineers in the conduct of photonic experiments.
- Test or perform failure analysis for optomechanical or optoelectrical products, according to test plans.
- Assist engineers in the development of new products, fixtures, tools, or processes.
- Recommend optical or optic equipment design or material changes to reduce costs or processing times.
- Set up or operate prototype or test apparatus, such as control consoles, collimators, recording equipment, or cables.
- Monitor inventory levels and order supplies as necessary.
- Assemble fiber optical, optoelectronic, or free-space optics components, subcomponents, assemblies, or subassemblies.
- Optimize photonic process parameters by making prototype or production devices.
- Splice fibers, using fusion splicing or other techniques.
- Build prototype optomechanical devices for use in equipment such as aerial cameras, gun sights, or telescopes.
- Terminate, cure, polish, or test fiber cables with mechanical connectors.
- Perform diagnostic analyses of processing steps, using analytical or metrological tools, such as microscopy, profilometry, or ellipsometry devices.
- Assemble or adjust parts or related electrical units of prototypes to prepare for testing.
- Design, build, or modify fixtures used to assemble parts.
- Assemble components of energy-efficient optical communications systems involving photonic switches, optical backplanes, or optoelectronic interfaces.
- Lay out cutting lines for machining, using drafting tools.
- Mix, pour, or use processing chemicals or gases according to safety standards or established operating procedures.
- Fabricate devices, such as optoelectronic or semiconductor devices.
- Adjust or maintain equipment, such as lasers, laser systems, microscopes, oscilloscopes, pulse generators, power meters, beam analyzers, or energy measurement devices.
- Repair or calibrate products, such as surgical lasers.
- Calibrate or adjust equipment to ensure quality production, using tools such as calipers, micrometers, height gauges, protractors, or ring gauges.
- Monitor and adjust production processes or equipment for quality and productivity.
- Test selected products at specified stages in the production process for performance characteristics or adherence to specifications.
- Compile and evaluate statistical data to determine and maintain quality and reliability of products.
- Study time, motion, methods, or speed involved in maintenance, production, or other operations to establish standard production rate or improve efficiency.
- Read worker logs, product processing sheets, or specification sheets to verify that records adhere to quality assurance specifications.
- Verify that equipment is being operated and maintained according to quality assurance standards by observing worker performance.
- Aid in planning work assignments in accordance with worker performance, machine capacity, production schedules, or anticipated delays.
- Evaluate industrial operations for compliance with permits or regulations related to the generation, storage, treatment, transportation, or disposal of hazardous materials or waste.
- Adhere to all applicable regulations, policies, and procedures for health, safety, and environmental compliance.
- Analyze, estimate, or report production costs.
- Assist engineers in developing, building, or testing prototypes or new products, processes, or procedures.
- Conduct statistical studies to analyze or compare production costs for sustainable and nonsustainable designs.
- Coordinate equipment purchases, installations, or transfers.
- Create or interpret engineering drawings, schematic diagrams, formulas, or blueprints for management or engineering staff.
- Design plant layouts or production facilities.
- Develop manufacturing infrastructure to integrate or deploy new manufacturing processes.
- Develop or implement programs to address problems related to production, materials, safety, or quality.
- Develop production, inventory, or quality assurance programs.
- Develop sustainable manufacturing technologies to reduce greenhouse gas emissions, minimize raw material use, replace toxic materials with non-toxic materials, replace non-renewable materials with renewable materials, or reduce waste.
- Identify opportunities for improvements in quality, cost, or efficiency of automation equipment.
- Oversee equipment start-up, characterization, qualification, or release.
- Oversee or inspect production processes.
- Prepare layouts, drawings, or sketches of machinery or equipment, such as shop tooling, scale layouts, or new equipment design, using drafting equipment or computer-aided design (CAD) software.
- Prepare production documents, such as standard operating procedures, manufacturing batch records, inventory reports, or productivity reports.
- Provide advice or training to other technicians.
- Recommend corrective or preventive actions to assure or improve product quality or reliability.
- Select cleaning materials, tools, or equipment.
- Select material quantities or processing methods needed to achieve efficient production.
- Set up and operate production equipment in accordance with current good manufacturing practices and standard operating procedures.
- Calibrate or adjust equipment to ensure quality production, using tools such as calipers, micrometers, height gauges, protractors, or ring gauges.
- Monitor and adjust production processes or equipment for quality and productivity.
- Perform quality assurance system checks, such as calibrations, on treatment planning computers.
- Plan the use of beam modifying devices, such as compensators, shields, and wedge filters, to ensure safe and effective delivery of radiation treatment.
- Design the arrangement of radiation fields to reduce exposure to critical patient structures, such as organs, using computers, manuals, and guides.
- Identify and outline bodily structures, using imaging procedures, such as x-ray, magnetic resonance imaging, computed tomography, or positron emission tomography.
- Calculate the delivery of radiation treatment, such as the amount or extent of radiation per session, based on the prescribed course of radiation therapy.
- Calculate, or verify calculations of, prescribed radiation doses.
- Develop radiation treatment plans in consultation with members of the radiation oncology team.
- Supervise or perform simulations for tumor localizations, using imaging methods such as magnetic resonance imaging, computed tomography, or positron emission tomography scans.
- Create and transfer reference images and localization markers for treatment delivery, using image-guided radiation therapy.
- Record patient information, such as radiation doses administered, in patient records.
- Advise oncology team members on use of beam modifying or immobilization devices in radiation treatment plans.
- Fabricate beam modifying devices, such as compensators, shields, and wedge filters.
- Fabricate patient immobilization devices, such as molds or casts, for radiation delivery.
- Develop requirements for the use of patient immobilization devices and positioning aides, such as molds or casts, as part of treatment plans to ensure accurate delivery of radiation and comfort of patient.
- Teach medical dosimetry, including its application, to students, radiation therapists, or residents.
- Conduct radiation oncology-related research, such as improving computer treatment planning systems or developing new treatment devices.
- Develop treatment plans, and calculate doses for brachytherapy procedures.
- Measure the amount of radioactivity in patients or equipment, using radiation monitoring devices.
- Educate patients regarding treatment plans, physiological reactions to treatment, or post-treatment care.
- Perform quality assurance system checks, such as calibrations, on treatment planning computers.
- Plan the use of beam modifying devices, such as compensators, shields, and wedge filters, to ensure safe and effective delivery of radiation treatment.
- Adjust, repair, or replace faulty components of test setups and equipment.
- Test aircraft systems under simulated operational conditions, performing systems readiness tests and pre- and post-operational checkouts, to establish design or fabrication parameters.
- Identify required data, data acquisition plans, and test parameters, setting up equipment to conform to these specifications.
- Inspect, diagnose, maintain, and operate test setups and equipment to detect malfunctions.
- Confer with engineering personnel regarding details and implications of test procedures and results.
- Operate and calibrate computer systems and devices to comply with test requirements and to perform data acquisition and analysis.
- Record and interpret test data on parts, assemblies, and mechanisms.
- Fabricate and install parts and systems to be tested in test equipment, using hand tools, power tools, and test instruments.
- Finish vehicle instrumentation and deinstrumentation.
- Construct and maintain test facilities for aircraft parts and systems, according to specifications.
- Design electrical and mechanical systems for avionic instrumentation applications.
- Adjust, repair, or replace faulty components of test setups and equipment.
- Calibrate devices by comparing measurements of pressure, temperature, humidity, or other environmental conditions to known standards.
- Analyze test data to identify defects or determine calibration requirements.
- Attend conferences, workshops, or other training sessions to learn about new tools or methods.
- Conduct calibration tests to determine performance or reliability of mechanical, structural, or electromechanical equipment.
- Develop new calibration methods or techniques based on measurement science, analyses, or calibration requirements.
- Disassemble and reassemble equipment for inspection.
- Draw plans for developing jigs, fixtures, instruments, or other devices.
- Maintain or repair measurement devices or equipment used for calibration testing.
- Operate metalworking machines to fabricate housings, jigs, fittings, or fixtures.
- Order replacement parts for malfunctioning equipment.
- Plan sequences of calibration tests according to equipment specifications and scientific principles.
- Read blueprints, schematics, diagrams, or technical orders.
- Verify part dimensions or clearances using precision measuring instruments to ensure conformance to specifications.
- Visually inspect equipment to detect surface defects.
- Write and submit reports about the results of calibration tests.
- Calibrate devices by comparing measurements of pressure, temperature, humidity, or other environmental conditions to known standards.
- Select, calibrate, or operate equipment used in the non-destructive testing of products or materials.
- Interpret the results of all methods of non-destructive testing (NDT), such as acoustic emission, electromagnetic, leak, liquid penetrant, magnetic particle, neutron radiographic, radiographic, thermal or infrared, ultrasonic, vibration analysis, and visual testing.
- Interpret or evaluate test results in accordance with applicable codes, standards, specifications, or procedures.
- Identify defects in solid materials, using ultrasonic testing techniques.
- Make radiographic images to detect flaws in objects while leaving objects intact.
- Prepare reports on non-destructive testing results.
- Visually examine materials, structures, or components for signs of corrosion, metal fatigue, cracks, or other flaws, using tools and equipment such as endoscopes, closed-circuit television systems, and fiber optics.
- Examine structures or vehicles such as aircraft, trains, nuclear reactors, bridges, dams, and pipelines, using non-destructive testing techniques.
- Document non-destructive testing methods, processes, or results.
- Produce images of objects on film, using radiographic techniques.
- Supervise or direct the work of non-destructive testing trainees or staff.
- Conduct liquid penetrant tests to locate surface cracks by coating objects with fluorescent dyes, cleaning excess penetrant, and applying developer.
- Map the presence of imperfections within objects, using sonic measurements.
- Develop or use new non-destructive testing methods, such as acoustic emission testing, leak testing, and thermal or infrared testing.
- Identify defects in concrete or other building materials, using thermal or infrared testing.
- Evaluate material properties, using radio astronomy, voltage and amperage measurement, or rheometric flow measurement.
- Select, calibrate, or operate equipment used in the non-destructive testing of products or materials.
- Calibrate and maintain chemical instrumentation sensing elements and sampling system equipment, using calibration instruments and hand tools.
- Brief workers on radiation levels in work areas.
- Calculate safe radiation exposure times for personnel using plant contamination readings and prescribed safe levels of radiation.
- Monitor personnel to determine the amounts and intensities of radiation exposure.
- Inform supervisors when individual exposures or area radiation levels approach maximum permissible limits.
- Determine intensities and types of radiation in work areas, equipment, or materials, using radiation detectors or other instruments.
- Instruct personnel in radiation safety procedures and demonstrate use of protective clothing and equipment.
- Collect samples of air, water, gases, or solids to determine radioactivity levels of contamination.
- Analyze samples, such as air or water samples, for contaminants or other elements.
- Determine or recommend radioactive decontamination procedures, according to the size and nature of equipment and the degree of contamination.
- Set up equipment that automatically detects area radiation deviations and test detection equipment to ensure its accuracy.
- Prepare reports describing contamination tests, material or equipment decontaminated, or methods used in decontamination processes.
- Decontaminate objects by cleaning with soap or solvents or by abrading with wire brushes, buffing wheels, or sandblasting machines.
- Enter data into computers to record characteristics of nuclear events or to locate coordinates of particles.
- Provide initial response to abnormal events or to alarms from radiation monitoring equipment.
- Place radioactive waste, such as sweepings or broken sample bottles, into containers for shipping or disposal.
- Calibrate and maintain chemical instrumentation sensing elements and sampling system equipment, using calibration instruments and hand tools.
- Evaluate the efficiency and reliability of industrial robotic systems, reprogramming or calibrating to achieve maximum quantity and quality.
- Make repairs to robots or peripheral equipment, such as replacement of defective circuit boards, sensors, controllers, encoders, or servomotors.
- Troubleshoot robotic systems, using knowledge of microprocessors, programmable controllers, electronics, circuit analysis, mechanics, sensor or feedback systems, hydraulics, or pneumatics.
- Install, program, or repair programmable controllers, robot controllers, end-of-arm tools, or conveyors.
- Maintain service records of robotic equipment or automated production systems.
- Modify computer-controlled robot movements.
- Perform preventive or corrective maintenance on robotic systems or components.
- Align, fit, or assemble components, using hand tools, power tools, fixtures, templates, or microscopes.
- Attach wires between controllers.
- Test performance of robotic assemblies, using instruments such as oscilloscopes, electronic voltmeters, or bridges.
- Train customers or other personnel to install, use, or maintain robots.
- Build or assemble robotic devices or systems.
- Document robotics test procedures and results.
- Assist engineers in the design, configuration, or application of robotic systems.
- Install new robotic systems in stationary positions or on tracks.
- Program complex robotic systems, such as vision systems.
- Develop robotic path motions to maximize efficiency, safety, and quality.
- Fabricate housings, jigs, fittings, or fixtures, using metalworking machines.
- Train robots, using artificial intelligence software or interactive training techniques, to perform simple or complex tasks, such as designing and carrying out a series of iterative tests of chemical samples.
- Inspect installation sites.
- Maintain inventories of robotic production supplies, such as sensors or cables.
- Develop three-dimensional simulations of automation systems.
- Evaluate the efficiency and reliability of industrial robotic systems, reprogramming or calibrating to achieve maximum quantity and quality.
- Monitor or calibrate automated systems, industrial control systems, or system components to maximize efficiency of production.
- Create mechanical design documents for parts, assemblies, or finished products.
- Design advanced precision equipment for accurate or controlled applications.
- Design engineering systems for the automation of industrial tasks.
- Implement or test design solutions.
- Maintain technical project files.
- Identify materials appropriate for mechatronic system designs.
- Research, select, or apply sensors, communication technologies, or control devices for motion control, position sensing, pressure sensing, or electronic communication.
- Apply mechatronic or automated solutions to the transfer of materials, components, or finished goods.
- Provide consultation or training on topics such as mechatronics or automated control.
- Oversee the work of contractors in accordance with project requirements.
- Publish engineering reports documenting design details or qualification test results.
- Upgrade the design of existing devices by adding mechatronic elements.
- Create mechanical models to simulate mechatronic design concepts.
- Analyze existing development or manufacturing procedures and suggest improvements.
- Determine the feasibility, costs, or performance benefits of new mechatronic equipment.
- Develop electronic, mechanical, or computerized processes to perform tasks in dangerous situations, such as underwater exploration or extraterrestrial mining.
- Create embedded software design programs.
- Design advanced electronic control systems for mechanical systems.
- Design self-monitoring mechanical systems, such as gear systems that monitor loading or condition of systems to detect and prevent failures.
- Design or develop automated control systems for environmental applications, such as waste processing, air quality, or water quality systems.
- Design, develop, or implement control circuits or algorithms for electromechanical or pneumatic devices or systems.
- Design mechatronics components for computer-controlled products, such as cameras, video recorders, automobiles, or airplanes.
- Monitor or calibrate automated systems, industrial control systems, or system components to maximize efficiency of production.
- Install, calibrate, operate, or maintain robots.
- Review or approve designs, calculations, or cost estimates.
- Process or interpret signals or sensor data.
- Debug robotics programs.
- Build, configure, or test robots or robotic applications.
- Create back-ups of robot programs or parameters.
- Provide technical support for robotic systems.
- Design end-of-arm tooling.
- Design robotic systems, such as automatic vehicle control, autonomous vehicles, advanced displays, advanced sensing, robotic platforms, computer vision, or telematics systems.
- Supervise technologists, technicians, or other engineers.
- Design software to control robotic systems for applications, such as military defense or manufacturing.
- Conduct research on robotic technology to create new robotic systems or system capabilities.
- Investigate mechanical failures or unexpected maintenance problems.
- Integrate robotics with peripherals, such as welders, controllers, or other equipment.
- Evaluate robotic systems or prototypes.
- Conduct research into the feasibility, design, operation, or performance of robotic mechanisms, components, or systems, such as planetary rovers, multiple mobile robots, reconfigurable robots, or man-machine interactions.
- Document robotic application development, maintenance, or changes.
- Design automated robotic systems to increase production volume or precision in high-throughput operations, such as automated ribonucleic acid (RNA) analysis or sorting, moving, or stacking production materials.
- Write algorithms or programming code for ad hoc robotic applications.
- Make system device lists or event timing charts.
- Design or program robotics systems for environmental clean-up applications to minimize human exposure to toxic or hazardous materials or to improve the quality or speed of clean-up operations.
- Plan mobile robot paths and teach path plans to robots.
- Design robotics applications for manufacturers of green products, such as wind turbines or solar panels, to increase production time, eliminate waste, or reduce costs.
- Automate assays on laboratory robotics.
- Install, calibrate, operate, or maintain robots.
- Adjust surveying instruments to maintain their accuracy.
- Direct or conduct surveys to establish legal boundaries for properties, based on legal deeds and titles.
- Prepare and maintain sketches, maps, reports, and legal descriptions of surveys to describe, certify, and assume liability for work performed.
- Write descriptions of property boundary surveys for use in deeds, leases, or other legal documents.
- Verify the accuracy of survey data, including measurements and calculations conducted at survey sites.
- Search legal records, survey records, and land titles to obtain information about property boundaries in areas to be surveyed.
- Record the results of surveys, including the shape, contour, location, elevation, and dimensions of land or land features.
- Prepare, or supervise preparation of, all data, charts, plots, maps, records, and documents related to surveys.
- Compute geodetic measurements and interpret survey data to determine positions, shapes, and elevations of geomorphic and topographic features.
- Calculate heights, depths, relative positions, property lines, and other characteristics of terrain.
- Plan and conduct ground surveys designed to establish baselines, elevations, and other geodetic measurements.
- Establish fixed points for use in making maps, using geodetic and engineering instruments.
- Determine longitudes and latitudes of important features and boundaries in survey areas, using theodolites, transits, levels, and satellite-based global positioning systems (GPS).
- Train assistants and helpers, and direct their work in such activities as performing surveys or drafting maps.
- Coordinate findings with the work of engineering and architectural personnel, clients, and others concerned with projects.
- Analyze survey objectives and specifications to prepare survey proposals or to direct others in survey proposal preparation.
- Testify as an expert witness in court cases on land survey issues, such as property boundaries.
- Develop criteria for survey methods and procedures.
- Survey bodies of water to determine navigable channels and to secure data for construction of breakwaters, piers, and other marine structures.
- Direct aerial surveys of specified geographical areas.
- Conduct research in surveying and mapping methods, using knowledge of photogrammetric map compilation and electronic data processing.
- Locate and mark sites selected for geophysical prospecting activities, such as efforts to locate petroleum or other mineral products.
- Determine specifications for equipment to be used for aerial photography, as well as altitudes from which to photograph terrain.
- Develop criteria for the design and modification of survey instruments.
- Adjust surveying instruments to maintain their accuracy.
- Calibrate vehicle systems, including control algorithms or other software systems.
- Conduct or direct system-level automotive testing.
- Provide technical direction to other engineers or engineering support personnel.
- Perform failure, variation, or root cause analyses.
- Design or analyze automobile systems in areas such as aerodynamics, alternate fuels, ergonomics, hybrid power, brakes, transmissions, steering, calibration, safety, or diagnostics.
- Prepare or present technical or project status reports.
- Conduct research studies to develop new concepts in the field of automotive engineering.
- Establish production or quality control standards.
- Alter or modify designs to obtain specified functional or operational performance.
- Research or implement green automotive technologies involving alternative fuels, electric or hybrid cars, or lighter or more fuel-efficient vehicles.
- Develop calibration methodologies, test methodologies, or tools.
- Create design alternatives for vehicle components, such as camless or dual-clutch engines or alternative air-conditioning systems, to increase fuel efficiency.
- Develop or implement operating methods or procedures.
- Develop engineering specifications or cost estimates for automotive design concepts.
- Conduct automotive design reviews.
- Design vehicles that use lighter materials, such as aluminum, magnesium alloy, or plastic, to improve fuel efficiency.
- Write, review, or maintain engineering documentation.
- Develop specifications for vehicles powered by alternative fuels or alternative power methods.
- Build models for algorithm or control feature verification testing.
- Coordinate production activities with other functional units, such as procurement, maintenance, or quality control.
- Design control systems or algorithms for purposes such as automotive energy management, emissions management, or increased operational safety or performance.
- Develop or integrate control feature requirements.
- Research computerized automotive applications, such as telemetrics, intelligent transportation systems, artificial intelligence, or automatic control.
- Read current literature, attend meetings or conferences, or talk with colleagues to stay abreast of new automotive technology or competitive products.
- Design vehicles for increased recyclability or use of natural, renewable, or recycled materials in vehicle construction.
- Calibrate vehicle systems, including control algorithms or other software systems.
- Calibrate microscopes or test instruments.
- Collect samples of gases, soils, water, industrial wastewater, or asbestos products to conduct tests on pollutant levels or identify sources of pollution.
- Record test data and prepare reports, summaries, or charts that interpret test results.
- Prepare samples or photomicrographs for testing and analysis.
- Discuss test results and analyses with customers.
- Weigh, analyze, or measure collected sample particles, such as lead, coal dust, or rock, to determine concentration of pollutants.
- Provide information or technical or program assistance to government representatives, employers, or the general public on the issues of public health, environmental protection, or workplace safety.
- Maintain files, such as hazardous waste databases, chemical usage data, personnel exposure information, or diagrams showing equipment locations.
- Set up equipment or stations to monitor and collect pollutants from sites, such as smoke stacks, manufacturing plants, or mechanical equipment.
- Develop or implement programs for monitoring of environmental pollution or radiation.
- Monitor emission control devices to ensure they are operating properly and comply with state and federal regulations.
- Make recommendations to control or eliminate unsafe conditions at workplaces or public facilities.
- Develop testing procedures.
- Perform statistical analysis of environmental data.
- Develop or implement site recycling or hazardous waste stream programs.
- Direct activities of workers in laboratory.
- Analyze potential environmental impacts of production process changes, and recommend steps to mitigate negative impacts.
- Inspect sanitary conditions at public facilities.
- Determine amounts and kinds of chemicals to use in destroying harmful organisms or removing impurities from purification systems.
- Examine and analyze material for presence and concentration of contaminants, such as asbestos, using variety of microscopes.
- Distribute permits, closure plans, or cleanup plans.
- Investigate hazardous conditions or spills or outbreaks of disease or food poisoning, collecting samples for analysis.
- Inspect workplaces to ensure the absence of health and safety hazards, such as high noise levels, radiation, or potential lighting hazards.
- Calculate amount of pollutant in samples or compute air pollution or gas flow in industrial processes, using chemical and mathematical formulas.
- Initiate procedures to close down or fine establishments violating environmental or health regulations.
- Calibrate microscopes or test instruments.
- Install, maintain, and calibrate instruments such as those that monitor water levels, rainfall, and sediments.
- Prepare written and oral reports describing research results, using illustrations, maps, appendices, and other information.
- Design and conduct scientific hydrogeological investigations to ensure that accurate and appropriate information is available for use in water resource management decisions.
- Measure and graph phenomena such as lake levels, stream flows, and changes in water volumes.
- Conduct research and communicate information to promote the conservation and preservation of water resources.
- Coordinate and supervise the work of professional and technical staff, including research assistants, technologists, and technicians.
- Study public water supply issues, including flood and drought risks, water quality, wastewater, and impacts on wetland habitats.
- Apply research findings to help minimize the environmental impacts of pollution, waterborne diseases, erosion, and sedimentation.
- Study and document quantities, distribution, disposition, and development of underground and surface waters.
- Develop computer models for hydrologic predictions.
- Study and analyze the physical aspects of the earth in terms of hydrological components, including atmosphere, hydrosphere, and interior structure.
- Evaluate research data in terms of its impact on issues such as soil and water conservation, flood control planning, and water supply forecasting.
- Collect and analyze water samples as part of field investigations or to validate data from automatic monitors.
- Prepare hydrogeologic evaluations of known or suspected hazardous waste sites and land treatment and feedlot facilities.
- Evaluate data and provide recommendations regarding the feasibility of municipal projects, such as hydroelectric power plants, irrigation systems, flood warning systems, and waste treatment facilities.
- Develop or modify methods for conducting hydrologic studies.
- Review applications for site plans and permits and recommend approval, denial, modification, or further investigative action.
- Monitor the work of well contractors, exploratory borers, and engineers and enforce rules regarding their activities.
- Answer questions and provide technical assistance and information to contractors or the public regarding issues such as well drilling, code requirements, hydrology, and geology.
- Investigate properties, origins, and activities of glaciers, ice, snow, and permafrost.
- Conduct short- and long-term climate assessments and study storm occurrences.
- Administer programs designed to ensure the proper sealing of abandoned wells.
- Compile and evaluate hydrologic information to prepare navigational charts and maps and to predict atmospheric conditions.
- Investigate complaints or conflicts related to the alteration of public waters, gathering information, recommending alternatives, informing participants of progress, and preparing draft orders.
- Design civil works associated with hydrographic activities and supervise their construction, installation, and maintenance.
- Install, maintain, and calibrate instruments such as those that monitor water levels, rainfall, and sediments.
- Calibrate nanotechnology equipment, such as weighing, testing, or production equipment.
- Operate nanotechnology compounding, testing, processing, or production equipment in accordance with appropriate standard operating procedures, good manufacturing practices, hazardous material restrictions, or health and safety requirements.
- Maintain work area according to cleanroom or other processing standards.
- Produce images or measurements, using tools or techniques such as atomic force microscopy, scanning electron microscopy, optical microscopy, particle size analysis, or zeta potential analysis.
- Collaborate with scientists or engineers to design or conduct experiments for the development of nanotechnology materials, components, devices, or systems.
- Repair nanotechnology processing or testing equipment or submit work orders for equipment repair.
- Measure or mix chemicals or compounds in accordance with detailed instructions or formulas.
- Monitor equipment during operation to ensure adherence to specifications for characteristics such as pressure, temperature, or flow.
- Collect or compile nanotechnology research or engineering data.
- Monitor hazardous waste cleanup procedures to ensure proper application of nanocomposites or accomplishment of objectives.
- Contribute written material or data for grant or patent applications.
- Inspect or measure thin films of carbon nanotubes, polymers, or inorganic coatings, using a variety of techniques or analytical tools.
- Compare the performance or environmental impact of nanomaterials by nanoparticle size, shape, or organization.
- Develop or modify wet chemical or industrial laboratory experimental techniques for nanoscale use.
- Process nanoparticles or nanostructures, using technologies such as ultraviolet radiation, microwave energy, or catalysis.
- Implement new or enhanced methods or processes for the processing, testing, or manufacture of nanotechnology materials or products.
- Prepare detailed verbal or written presentations for scientists, engineers, project managers, or upper management.
- Perform functional tests of nano-enhanced assemblies, components, or systems, using equipment such as torque gauges or conductivity meters.
- Maintain accurate record or batch-record documentation of nanoproduction.
- Assemble components, using techniques such as interference fitting, solvent bonding, adhesive bonding, heat sealing, or ultrasonic welding.
- Prepare capability data, training materials, or other documentation for transfer of processes to production.
- Analyze the life cycle of nanomaterials or nano-enabled products to determine environmental impact.
- Measure emission of nanodust or nanoparticles during nanocomposite or other nano-scale production processes, using systems such as aerosol detection systems.
- Assist nanoscientists or engineers in processing or characterizing materials according to physical or chemical properties.
- Assist nanoscientists or engineers in writing process specifications or documentation.
- Calibrate nanotechnology equipment, such as weighing, testing, or production equipment.
- Calibrate, validate, or maintain laboratory equipment.
- Conduct routine and non-routine analyses of in-process materials, raw materials, environmental samples, finished goods, or stability samples.
- Interpret test results, compare them to established specifications and control limits, and make recommendations on appropriateness of data for release.
- Ensure that lab cleanliness and safety standards are maintained.
- Perform visual inspections of finished products.
- Complete documentation needed to support testing procedures, including data capture forms, equipment logbooks, or inventory forms.
- Compile laboratory test data and perform appropriate analyses.
- Identify and troubleshoot equipment problems.
- Write technical reports or documentation, such as deviation reports, testing protocols, and trend analyses.
- Investigate or report questionable test results.
- Monitor testing procedures to ensure that all tests are performed according to established item specifications, standard test methods, or protocols.
- Identify quality problems and recommend solutions.
- Participate in out-of-specification and failure investigations and recommend corrective actions.
- Receive and inspect raw materials.
- Train other analysts to perform laboratory procedures and assays.
- Supply quality control data necessary for regulatory submissions.
- Serve as a technical liaison between quality control and other departments, vendors, or contractors.
- Write or revise standard quality control operating procedures.
- Participate in internal assessments and audits as required.
- Perform validations or transfers of analytical methods in accordance with applicable policies or guidelines.
- Evaluate analytical methods and procedures to determine how they might be improved.
- Prepare or review required method transfer documentation including technical transfer protocols or reports.
- Review data from contract laboratories to ensure accuracy and regulatory compliance.
- Develop and qualify new testing methods.
- Coordinate testing with contract laboratories and vendors.
- Evaluate new technologies and methods to make recommendations regarding their use.
- Calibrate, validate, or maintain laboratory equipment.
- Repair, rework, or calibrate hydraulic or pneumatic assemblies or systems to meet operational specifications or tolerances.
- Test performance of electromechanical assemblies, using test instruments such as oscilloscopes, electronic voltmeters, or bridges.
- Install or program computer hardware or machine or instrumentation software in microprocessor-based systems.
- Read blueprints, schematics, diagrams, or technical orders to determine methods and sequences of assembly.
- Modify, maintain, or repair electrical, electronic, or mechanical components, equipment, or systems to ensure proper functioning.
- Inspect parts for surface defects.
- Install electrical or electronic parts and hardware in housings or assemblies, using soldering equipment and hand tools.
- Verify part dimensions or clearances to ensure conformance to specifications, using precision measuring instruments.
- Fabricate or assemble mechanical, electrical, or electronic components or assemblies.
- Align, fit, or assemble component parts, using hand or power tools, fixtures, templates, or microscopes.
- Produce electrical, electronic, or mechanical drawings or other related documents or graphics necessary for electromechanical design, using computer-aided design (CAD) software.
- Select electromechanical equipment, materials, components, or systems to meet functional specifications.
- Establish and maintain inventory, records, or documentation systems.
- Develop, test, or program new robots.
- Prepare written documentation of electromechanical test results.
- Select and use laboratory, operational, or diagnostic techniques or test equipment to assess electromechanical circuits, equipment, processes, systems, or subsystems.
- Operate, test, or maintain robotic equipment used for green production applications, such as waste-to-energy conversion systems, minimization of material waste, or replacement of human operators in dangerous work environments.
- Determine whether selected electromechanical components comply with environmental standards and regulations.
- Develop or implement programs related to the environmental impact of engineering activities.
- Train others to install, use, or maintain robots.
- Analyze engineering designs of logic or digital circuitry, motor controls, instrumentation, or data acquisition for implementation into new or existing automated, servomechanical, or other electromechanical systems.
- Conduct statistical studies to analyze or compare production costs for sustainable and nonsustainable designs.
- Specify, coordinate, or conduct quality-control or quality-assurance programs and procedures.
- Operate metalworking machines to fabricate housings, jigs, fittings, or fixtures.
- Translate electromechanical drawings into design specifications, applying principles of engineering, thermal or fluid sciences, mathematics, or statistics.
- Identify energy-conserving production or fabrication methods, such as by bending metal rather than cutting and welding or casting metal.
- Assist engineers to implement electromechanical designs in industrial or other settings.
- Consult with machinists to ensure that electromechanical equipment or systems meet design specifications.
- Repair, rework, or calibrate hydraulic or pneumatic assemblies or systems to meet operational specifications or tolerances.
- Adjust or repair testing, electrical, or mechanical equipment or devices.
- Test and analyze samples to determine their content and characteristics, using laboratory apparatus or testing equipment.
- Collect or prepare solid or fluid samples for analysis.
- Compile, log, or record testing or operational data for review and further analysis.
- Prepare notes, sketches, geological maps, or cross-sections.
- Participate in geological, geophysical, geochemical, hydrographic, or oceanographic surveys, prospecting field trips, exploratory drilling, well logging, or underground mine survey programs.
- Prepare or review professional, technical, or other reports regarding sampling, testing, or recommendations of data analysis.
- Read and study reports in order to compile information and data for geological and geophysical prospecting.
- Interview individuals, and research public databases in order to obtain information.
- Plot information from aerial photographs, well logs, section descriptions, or other databases.
- Assemble, maintain, or distribute information for library or record systems.
- Operate or adjust equipment or apparatus used to obtain geological data.
- Plan and direct activities of workers who operate equipment to collect data.
- Set up or direct set-up of instruments used to collect geological data.
- Record readings in order to compile data used in prospecting for oil or gas.
- Create photographic recordings of information, using equipment.
- Measure geological characteristics used in prospecting for oil or gas, using measuring instruments.
- Participate in the evaluation of possible mining locations.
- Assess the environmental impacts of development projects on subsurface materials.
- Evaluate and interpret core samples and cuttings, and other geological data used in prospecting for oil or gas.
- Supervise well exploration, drilling activities, or well completions.
- Inspect engines for wear or defective parts, using equipment or measuring devices.
- Collaborate with hydrogeologists to evaluate groundwater or well circulation.
- Apply new technologies, such as improved seismic imaging techniques, to locate untapped oil or natural gas deposits.
- Collect data on underground areas, such as reservoirs, that could be used in carbon sequestration operations.
- Collect geological data from potential geothermal energy plant sites.
- Compile data used to address environmental issues, such as the suitability of potential landfill sites.
- Conduct geophysical surveys of potential sites for wind farms or solar installations to determine their suitability.
- Evaluate and interpret seismic data with the aid of computers.
- Adjust or repair testing, electrical, or mechanical equipment or devices.