The factors are:-
1. Distance from the sea
2. Ocean currents
3. Direction of prevailing winds
4. Relief
5. Proximity to the equator
6. The El Nino phenomenon
7. Recently it has accepted that Human activity is also affecting climate.
8. Location
or...
1. Latitude - Distance north or south of equator
2. Altitude - Distance above or below sea level
3. Global Winds - What winds are blowing/where they're coming from/warm or cold
4. Ocean currents - What currents are coming in/where from
5. Topography - Distance from mountains (how close they are)
6. Distance From Water - How close the area is to and ocean or lake (any body of water)
These are the main most important 6.
latitude, prevailing winds, mountains, large bodies of water, and ocean currents.
Precipitation, latitude, trapping of heat, winds and ocean currents, shape and elevations of land masses. (Prentice Hall Biology)
ocean currents
wind
elevation
relief
near water
A:The factors that determine climate are latitude, distance from water, elevation, and ocean currents A:it is sun, location, water, wind, and mountains.The factors that determine climate are temperature, precipitation, altitude, location, latitude, tilt of the axis, surface currents, winds, and elevation.
The latitude, the transportation of heat by winds and ocean currents
Latitude, Altitude, Mountain Barriers, Ocean Currents, Land-Water Relationship, and Prevailing Winds.
five factors that determine climate is elevation, latitude, weather, ,and biome
Scientists are often trying to find out whether certain factors changed or remained the same.
People classify different things based on shared characteristics, functions, or attributes. This process often involves categorization, where items are grouped into predefined categories like shapes, colors, or species. Classification can also depend on contextual factors, such as cultural significance or personal experiences. Ultimately, it helps individuals make sense of the world by organizing information for easier retrieval and understanding.
Scientists conduct controlled experiments to isolate the effects of one variable while keeping others constant, allowing for a clear understanding of cause-and-effect relationships. This method minimizes confounding factors that could skew results, ensuring that any observed changes can be confidently attributed to the manipulated variable. By controlling conditions, scientists can replicate experiments and validate findings, which is essential for building reliable scientific knowledge.
Constant factors in science refer to variables that are kept the same throughout an experiment to ensure that any observed changes in the dependent variable can be attributed to the manipulation of the independent variable. By controlling these factors, scientists can maintain consistency and reliability in their experiments, allowing for clearer comparisons and conclusions. Examples of constant factors might include temperature, pressure, or the specific materials used in a study. Maintaining these constants is essential for the validity of scientific research.
When evaluating an experiment, consider the clarity of the hypothesis, ensuring it is testable and measurable. Assess the experimental design for proper controls, randomization, and sample size, as these factors influence the reliability of the results. Additionally, review the data analysis methods used and whether they appropriately address the research questions. Finally, consider the reproducibility of the experiment and the potential limitations or biases that may affect the findings.
It is temperature and precipitation.
In The Online World It Says That, "They are temperature and precipitation."
Common characteristics used to classify climates include temperature, precipitation, humidity, wind patterns, and seasonal variations. These factors help determine the type of climate a region falls under, such as tropical, arid, temperate, or polar climates.
current and wind patterns
current and wind patterns
Scientists classify biomes based on factors such as climate, vegetation, and organisms present. They typically consider temperature, precipitation, soil type, and biodiversity to determine the characteristics of a biome. Biomes are grouped into categories such as deserts, grasslands, forests, and aquatic biomes based on these criteria.
Climates are classified based on factors such as temperature, precipitation, and vegetation. The Köppen climate classification system, for example, groups climates into categories such as tropical, dry, temperate, continental, and polar based on these factors. Other criteria include latitude, altitude, and proximity to large bodies of water.
Scientists classify soil based on factors such as texture (sand, silt, clay), structure (how soil particles are arranged), pH level, organic matter content, and composition of minerals present. These factors help determine the soil's fertility, drainage, and ability to support plant growth.
Scientists classify the Earth's major physical characteristics based on factors such as its structure (core, mantle, crust), composition (rocks, minerals), and surface features (mountains, oceans, continents). These characteristics help scientists understand the Earth's geology, topography, and the processes that shape its landscape.
Scientists use a combination of factors such as physical characteristics, genetic information, and evolutionary relationships to classify organisms into different groups or taxa. This system helps organize and understand the diversity of life on Earth.
Scientists classify rocks based on their mineral composition, grain size, texture, and origin. They also consider factors like color, hardness, and how the rock formed (e.g. igneous, sedimentary, or metamorphic) in order to categorize rocks into different types and groups.
Modern scientists study morphology (physical characteristics), genetics (DNA and hereditary factors), and behavior when classifying organisms. These factors help determine the evolutionary relationships and taxonomic classification of different species.