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Nov 24, 2024
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GEO 222 - Geography of AsiaCredits: 3 Instructional Contact Hours: 3
Regional geographic interpretation of the area as a continent. Study of relationships of physical, economic, social and political environment activity.
Prerequisite(s): READING LEVEL 2 and WRITING LEVEL 2 and MATH LEVEL 2 Corequisite(s): None Lecture Hours: 45 Lab Hours: 0 Meets MTA Requirement: Social Science Pass/NoCredit: No
Outcomes and Objectives
- Understand and describe basic physical processes demonstrated in the atmosphere.
- Describe the basic composition and vertical structure of the atmosphere.
- Contrast temperature versus heat.
- Describe the three processes of heat transfer and provide examples for each.
- Describe temperature and its impact on the human body.
- Describe water, its three states, and latent heat from changes of state.
- Describe humidity and its relationship to water vapor and temperature.
- Describe adiabatic temperature changes and its relationship to the buoyancy of air parcels.
- Define atmospheric stability and the three classifications of stability.
- Describe processes that can change atmospheric stability.
- Define four lifting processes for air parcels enabling cloud formation.
- Define the basic components of condensation and cloud formation.
- Define the general cloud classifications by level and vertical development.
- Define the various types and formation processes of fog.
- Describe the two basic processes for precipitation formation.
- Describe the various forms of precipitation and define the basic causes for each
- Define air pressure and define the changes of pressure with height.
- Define the pressure gradient force and its relationship to wind.
- Describe properties of light that influence various optical effects in the atmosphere.
- Describe the general factors contributing to rainbows and other optical phenomena in the atmosphere.
- Understand and describe key atmospheric and global processes that contribute to weather.
- Describe the Earth-Sun relationship that define seasonal and diurnal weather changes.
- Describe solar and terrestrial radiation and how radiation is affected as it passes through the atmosphere.
- Describe the global heat budget and the importance of maintaining a heat equilibrium.
- Describe the set of control processes that define temperature variations as different locations on the earth.
- Describe the coriolis effect and its impact to wind and weather systems.
- Define the geostrophic wind model and how it relates to high-level winds.
- Contrast the forces acting on surface winds versus winds aloft.
- Describe wind flow around high and low pressure centers.
- Describe the general models for global wind circulation.
- Define various special forms of localized wind circulations.
- Define monsoon circulation and the intertropical convergence zone.
- Describe the jet stream and its significance.
- Describe the general global distribution of temperature and precipitation and its relationship to ocean and land mass patterns.
- Understand and describe the Polar Front Theory that define weather
- Define what an air mass and the attributes of air mass source regions.
- Define the general air masses that influence North America.
- Define what a front is.
- Describe the four significant types of fronts, their attributes, and weather typically associated with each type.
- Describe the wave cyclone model, the major stages of the wave cyclone life cycle, and typical movements of wave cyclones.
- Define the basic relationship between upper air flow and the development of wave cyclones.
- Define how the frontal zones and pressure centers described by the wave cyclone model contribute to local weather.
- Understand special topics related to current global environmental issues and factors impacting the local weather of Michigan.
- Define the basic atmospheric processes influencing current environmental issues including global warming and ozone layer depletion.
- Define El Nino and its general impact on global weather.
- Describe factors leading to formation of lake effect snow and the factors of the Great Lakes and Michigan that contribute to its development in the state.
- Describe general attributes of Michigan's climate and atmospheric features that impact it.
- Describe general meteorological factors influencing air pollution.
- Describe acid rain.
- Perform calculations and graphs to solve relevant problems and perform data analyses contributing to understanding fundamental atmospheric processes.
- Describe the various systems of measurement used in meteorology and perform typical unit conversions for weather data.
- Perform required mathematical skills including unit conversion and scientific notation.
- Draw isopleths for a given set of plotted weather data.
- Develop graphs and data plots from atmospheric measurements and information.
- Analyze data and derive conclusions from analysis of graphical data.
- Decode and encode weather data in the standard station model format.
- Develop a surface weather chart from plotted data including locating pressure centers and fronts
- Define the tools and instruments used to measure atmospheric parameters.
- Define tools and units for temperature measurement.
- Define tools and units for measurement of humidity.
- Define tools and units for measurement of air pressure.
- Define tools and units for measurement of wind velocity.
- Define tools used for measurement of precipitation.
- Describe the National Weather Service data network for observation and measurement of all types of weather data.
- Define limitations in atmospheric measurement and accuracy for national and global weather data.
- Understand and describe basic satellite weather observation including types of orbiting satellites and various types of weather imagery.
- Understand and describe basic radar weather observation including use of radar data, and Doppler radar.
- Define limitations of satellite and radar remote sensing instruments for weather observation.
- Describe tools for upper air weather measurement.
- Define general techniques and issues related to weather forecasting.
- Define the importance of accurate and complete weather observation and analysis for weather forecasting.
- Describe the general structure and responsibilities of the National Weather Service.
- Define the various techniques for weather forecasting.
- Define the various scales, durations, and types of weather forecasts.
- Describe the importance of computer forecast models in weather prediction.
- Describe the issues related to forecast accuracy and the limits of forecast duration.
- Understand and describe the following as it applies to Severe and Adverse Weather:
- Describe the stages of thunderstorm formation.
- Define the general thunderstorm types.
- Define the classification requirements for a severe thunderstorm.
- Describe the processes of lightning and thunder.
- Define the hail formation process.
- Describe the basic process of tornado formation and the atmospheric conditions favorable for tornado development.
- Describe the tornado climatology and define reasons for high and low tornado formation areas.
- Describe the Fujita Scale for tornado classification and its relationship to damage assessment.
- Describe tornado forecasting processes and the basic tornado warning system.
- Dispel commonly held myths about tornadoes.
- Define common procedures for lightning and tornado safety.
- Define the tools used for tornado tracking and warnings.
- Define the conditions favorable for hurricane formation.
- Define the hurricane formation process.
- Describe tools and processes used for hurricane tracking and warnings.
- Describe classification system for tropical weather events including the “naming” of storms as well as the Safir Simpson hurricane classification scale.
- Describe the major factors contributing to hurricane injury and damage.
- Perform writing tasks to promote learning.
- Write effectively for a specific audience and purpose.
- Demonstrate the learning of concepts through writing.
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