Loading...
water on earth
Quiz by ahmed omar
Customize this quiz to suit your class
Instantly translate to 100+ languages
Tag the questions with any skills you have. Your dashboard will track each student's mastery of each skill.
Give this quiz to my class
Why is water important?
All of the above
All living things need water
Water carries out body processes
Many living things live in water
Where is water found?
Mountains
Oceans, Ice, Rivers, Lakes, groundwater
Volcanos
Valleys, caves and holes
Why is water important?
Where is water found?
Most of Earths surface water (97%) is salt water found in oceans
3% of Earths surface water is found in Freshwater.
Most of Earths fresh water is frozen into?
As water is heated, it changes into gaseous state known as water vapor and rises into the atmosphere
Water that contains little or no dissolved salt is
Which source of freshwater is not easily available for human use?
Most of the fresh water on earth is
water can exist in 3 phases
Water on Earth Pre QuizRIVER'S STAGES + FRESH WATER ON EARTHGSE Grade 6 Earth Science - S6E3 Diagnostic - Water on Earth Based on the provided sources, here is a comprehensive extraction of the information regarding the water cycle, energy transfer, and Earth's wind systems, organized into key points: The Water Cycle and Its Reservoirs • Definition: The water cycle is the continuous movement of water among various reservoirs on Earth. • Water Reservoirs: These are storage locations for water and include: ◦ Oceans, seas, and lakes. ◦ Rivers, glaciers, soil, and rocks. ◦ The atmosphere and living organisms. • Total Volume: The total amount of water on Earth does not change, even when it changes state, because it is constantly being replaced or recycled through the cycle. Main Processes and Energy Transfer The movement of water through the cycle is driven by energy (thermal energy from the Sun) and force (gravity and wind). • Energy Gain (Absorption): ◦ Melting: Water changes from a solid state (ice) to a liquid state and gains energy. ◦ Evaporation: Liquid water changes into a gas state (water vapor) by gaining thermal energy. ◦ Transpiration: A specialized type of evaporation occurring in plants where water vapor is released through tiny holes in leaves called stomata. Approximately 10% of water vapor in the air comes from transpiration. • Energy Loss (Release): ◦ Condensation: Water vapor (gas) cools down and changes back into liquid water, releasing energy. ◦ Freezing: Liquid water changes into a solid state (ice) and loses energy. • Other Key Steps: ◦ Precipitation: Water falls back to Earth as rain, snow, sleet, or hail (snow pellets). ◦ Runoff: Water flows over Earth's surface into streams, rivers, and eventually larger bodies of water like oceans. ◦ Collection: Rainwater is collected in different water bodies to start the cycle again. Forces Driving Water Movement • Gravity: The main force that pulls water downward. It is responsible for: ◦ Bringing precipitation (rain and snow) from clouds to the surface. ◦ Moving ice in glaciers from higher to lower elevations. ◦ Causing liquid water to flow downhill into rivers and seas. ◦ Leakage: Pulling liquid water down into the ground to reach groundwater reservoirs. • Wind: Another force that affects water movement and transports water to different locations on Earth. Atmospheric Processes • Cloud Formation: Water vapor attaches to particles such as dust or smoke in the air and condenses into tiny droplets. When millions of these droplets join, they become heavy and fall as rain. • Convection: The transfer of heat in liquids and gases. ◦ Warm air/liquid: Becomes less dense, lighter, and rises upward. ◦ Cold air/liquid: Is more dense, heavier, and moves downward to replace the warm fluid. ◦ This process leads to convection currents, which help determine regional climates and drive wind and ocean currents. Solar Radiation and Climate The amount of solar energy reaching Earth differs from place to place, which affects the weather: • Hottest Regions (Equator): Sun rays fall perpendicular (vertical). Heat is concentrated on a small area, making the weather hot. • Moderate Regions: Sun rays fall semi-inclined. Heat is distributed over a larger area, making the weather warm. • Coolest Regions (Poles): Sun rays fall very slanted (inclined). Heat is spread over a very large area, making the weather very cold. Earth's Wind System • Wind Formation: Wind is generated when warm air (heated by the Sun) rises and is replaced by cooler air flowing from nearby areas. • Factors Affecting Wind: The amount of solar radiation and the rotation of Earth determine global wind directions. • Global Wind Cycle: Unequal heating between the equator and the poles generates a constant wind system. Warm air rises at the equator and moves toward the poles, while cold air from the poles moves toward the equator. • Importance: If there were no wind, the equator would become extremely hot, the poles would freeze solid, and many ecosystems would disappear. Practical Examples • Turkey’s Salt Lake: High evaporation in the summer can turn this large lake into a small puddle or dry it up completely. It is a critical site for flamingos, which migrate there to breed and feed on algae in the shallow, warm water.Create a multiple choice quiz with the following information: Earth’s Sphere Everything on Earth can be placed into one of four major subsystems: land, water, living things, and air. These four subsystems are called "spheres." Specifically, they are the "geosphere" (land), "hydrosphere" (water), "biosphere" (living things), and "atmosphere" (air). Geosphere All the rock, soil and sediments that makeup Earth’s land. It comes from the word “Geo” which means “Earth.” Hydrosphere All the oceans, rivers, lakes and water on Earth. It comes from the word “Hydro” which means “water.” Atmosphere All the gasses surrounding the earth. It comes from the word “Atmos” which means “air.” Biosphere All the living things on Earth. It comes from the word “Bio” which means “life.” Interact act in such a way as to have an effect on another; Freshwater naturally occurring water that is not salty, and is suitable for consumption if clean or processed. Groundwater water held underground in the soil or in pores and crevices in rock Recycling To reuse something that would have otherwise been thrown out or to turn it into something usable again instead of sending it to a landfill. Erosion After pieces of the earth are broken down through weathering, those pieces are moved through Erosion. Erosion is the process of moving things from one place to another. Mushroom Rocks Naturally occurring rocks that look like a mushroom. They can be formed when sand gets carried by wind and hits the rock. This weathers the bottom of the rock more than the top. Dry Ice A solid form of carbon dioxide that is very cold and turns directly from a solid to a gas.air mass a large area of air that has uniform temperature, humidity, and pressure. air pressure the force that a column of air applies on the air or a surface below it albedo the measure of the sun's reflectivity on Earth's different surfaces atmosphere the layers of gases surrounding Earth climate average weather conditions in a specific region over a long period of time coriolis effect the movement of wind or currents in a curved path due to Earth's rotation eddy Smaller, temporary loops of swirling water that can travel long distances before dispersing front a boundary between two air masses greenhouse gas a gas in the atmosphere that absorbs part Earth’s outgoing infrared radiation gyre a large circular system of ocean currents. humidity the amount of water vapor in the air hydrosphere system containing all the solid and liquid water on Earth jet stream Narrow bands of high speed wind high in the troposphere that move from west to east land breeze Winds that blow at night from land toward the sea. This is due to the fact that land has a low specific heat capacity and cools faster than water. This creates high pressure over the land at night and thus wind. local winds Winds that blow over short distances polar easterlies cold winds that blow from the east to the west near the North Pole and South Pole. prevailing wind distinct wind patterns caused by differences in pressure and the Coriolis effect sea breeze Winds that blow during the day from the sea toward land. This is due to water having a high specific heat capacity and it does not heat or cool quickly. High pressure then forms over the water during the day and blows toward the land. specific heat capacity The amount of heat that must be added to a substance to increase the tempurature by one degree Celsius storm surge water that has blown outward from the center of a tropical cyclone or hurricane and creates an abnormal rise in ocean waters on the coast surface current Currents near the surface of the ocean. Driven by wind, the Coriolis effect, and continental deflection trade winds Steady winds that flow from east to west between 30°N latitude and 30°S latitude along the equator tropical cyclone a rotating, organized system of clouds and thunderstorms that originates over tropical or subtropical waters typhoon a tropical cyclone occurring in the Pacific Ocean; especially in the region of the Philippines or the China Sea. weather the short-term atmospheric conditions in a given place and time westerlies steady winds that flow from west to east in the middle latitudes (30- 60 Degrees). These impact our weather in the US. wind shear A large shift in wind speed and5-ESS2-1 Develop a model using an example to describe ways the geosphere, biosphere, hydrosphere, and/or atmosphere interact. 5-ESS2-2 Describe and graph the amounts of saltwater and fresh water in various reservoirs to provide evidence about the distribution of water on Earth. 5-ESS3-1 Evaluate potential solutions to problems that individual communities face in protecting the Earth’s resources and environments. Amazing Antarctica The Seventh Continent. Give a globe a spin. On it you can easily find six continents. Now look at the bottom of the globe. There you will find continent number seven: Antarctica. People did not find Antarctica until about two hundred years ago. Since then, we have learned a lot about this amazing place. Antarctica is the coldest continent. It is also the continent with the strongest winds. Less rain and snow fall in Antarctica than in any other continent. Freezing Antarctica Water covers most of Earth. Almost all of it is salt water. Most of the fresh water on Earth is frozen in the ice in Antarctica. Snow does not melt during the cold summers there. The ice builds up over many years. Life on and Around Antarctica The freezing weather in Antarctica makes it a dangerous place to live. Most plants and animals can be found near the coasts or in the sea. There are no trees, but there are other plants, such as moss. Penguins and seals are some of the larger animals in the icy waters of Antarctica. A Playground for Scientists People have taken steps to make sure that scientists can study in Antarctica. Many countries send scientists to study in Antarctica. Some work there all year, even during the cold winter. Others work only in summer. Many kinds of scientists come to Antarctica. They study animals, ice, and many other things. Many kinds of scientists come to Antarctica. They study animals, ice, and many other things. Thousands of visitors also come to learn about Antarctica each year. Conclusion. People do not know a lot about Antarctica. The cold, ice, wind, and rough seas make it a difficult place to visit. However, people around the world know how important it is to protect and study Antarctica.