Big puddles have more surface area exposed to the air, which allows for more evaporation to occur faster than in smaller puddles. The increased surface area also leads to more heat being absorbed from the surrounding environment, further accelerating the evaporation process.
Tropical Wet and dry is a place that is hot all year with rainy and dry seasons. It is grassland with some trees. It has animals like giraffes Lions and Zebras! Like the Savanna!! :)
Water is crucial for supporting plant growth in the dry prairie ecosystem. The water cycle helps replenish groundwater and surface water sources, allowing plants to access the necessary water for growth. Periodic rainfall and water availability also influence the diversity and distribution of plant species in the ecosystem.
Cacti have adapted to grow in dry environments by storing water in their fleshy tissues to survive in arid conditions. Their small surface area helps reduce water loss through evaporation, allowing them to thrive in deserts and other dry regions. Additionally, their spines help to reduce water loss by providing shade and trapping moisture near the plant.
Yes, cacti have several adaptations to survive in dry climates. These include storing water in their fleshy stems and having reduced leaf surfaces to minimize water loss through transpiration. Additionally, cacti have a waxy outer coating to prevent water loss and specialized shallow roots to quickly absorb water when it rains.
A puddle dries up after it rains due to evaporation. The sun's heat causes water molecules on the surface of the puddle to turn into vapor, which then escapes into the air, gradually reducing the water level in the puddle until it eventually dries up.
it condensed into a gas
Worms do not cross the street when it rains. Worms prefer to remain in moist soil but retreat to concete surfaces when the soil becomes saturated with water. hm mm i would think that they like the water and not only the dry ground..that should actually be common sense!!
evaporation
Diwa
Puddles of water on the ground dry up due to evaporation. The sun's heat causes the water molecules on the surface of the puddle to gain enough energy to escape into the air as water vapor, leading to the gradual disappearance of the puddle.
Puddles dry up when the water in them evaporates into the air or seeps into the ground. Factors like temperature, humidity, and wind speed can affect how quickly a puddle dries up.
Desert animals stay dry when it rains. When the rain stops, they come out to drink water.
Puddles disappear quicker on hot dry days because the heat causes the water in the puddle to evaporate more quickly. The high temperature speeds up the water molecules, increasing their energy and allowing them to escape into the air more rapidly. On cool dry days, the lower temperature slows down the evaporation process, leading to puddles taking longer to dry up.
To test this hypothesis, you can set up an experiment where you place puddles of water in identical containers in a controlled environment on a cool day and a hot day. Measure and record the time it takes for the puddles to dry up completely on each type of day. By comparing the drying times under different conditions, you can determine if puddles take longer to dry up on a cool day compared to a hot day.
Puddles can still dry up on cold days due to a process called evaporation, where water molecules escape into the air as vapor. Despite the lower temperatures, air can still hold a certain amount of moisture, allowing the water in puddles to evaporate slowly over time. Additionally, factors like wind and sunlight can accelerate the evaporation process, causing puddles to dry up even in cold weather.
Dry riverbeds that fill with water when it rains are called "ephemeral streams" or "intermittent rivers." These watercourses only flow in response to precipitation events, making them temporary features in the landscape.