Answer:
C. Ferdinand Magellan
Answer:
It burns because of chemical propreties
Explanation:
Burning is a chemical change.
Answer:
chemical because you............... it just is
please mark me a brainliest pleeeaaasee
Explanation:
B. Arizona
C. California
D. South Florida
C.California
My answer does have enough letter so im writing that it doesn't so it does
Magma forms at mid-ocean ridges through a process called seafloor spreading, which happens when tectonic plates diverge and upwelling currents in the mantle push up molten rock to fill the gap. In contrast, at convergent plate boundaries, magma forms through the subduction and melting of a tectonic plate as it is forced beneath another.
At mid-ocean ridges, tectonic plates move apart from each other, forming a rift. Here, upwelling currents in the mantle cause molten rock, or magma, to rise and fill the space between the separating plates, forming basaltic lava. This process, known as seafloor spreading, results in the creation of new sea floor and undersea mountain ranges.
Conversely, magma production at convergent plate boundaries or subduction zones is different. This occurs when tectonic plates collide, and one plate is forced beneath the other. The subducting plate is thrust into the high-pressure and high-temperature conditions of the upper mantle, causing it to melt and form magma. This magma can rise to Earth's surface, resulting in volcanic activity.
In summary, the creation of magma at mid-ocean ridges is caused by the divergence of tectonic plates and upwelling in the mantle, while at convergent plate boundaries, magma forms through subduction and melting of tectonic plates.
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Geospatial and geographic data are used widely from individuals to governments. They help to understand spatial relationships and patterns which can be applied for various purposes such as route planning, site selection, market analysis, research, urban planning, and disaster management.
Geospatial and geographic data are used at all scales for various decision-making purposes. These types of data provide essential information about the physical location and layout of the earth's features, human-made systems, and phenomena that occur on our planet. They are visual representations that help individuals, businesses, organizations, and governments to understand spatial relationships and patterns.
For individuals, geospatial data can be used to analyze commuting patterns, define routes and access local services. Businesses use geospatial data for site selection, supply chain management, and market analysis. On an organizational level, bodies like non-profits or research institutions use these data to assess environmental impacts, conduct research, or plan development projects. Government entities use geographic data for everything from traffic management to urban planning and disaster management.
For instance, a municipality might use geospatial data to identify areas prone to flooding and then make decisions about infrastructure development.
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Geospatial and geographic data are essential for a wide variety of decision-making processes, spanning personal use to governmental planning. They help in visualizing spatial relationships and are used in navigation, business planning, and governmental decision making. These data can be collected through numerous methods and can be visually displayed for easier analysis.
Geospatial and geographic data are vital elements used across a variety of sectors and scales. They are used to understand and visualize spatial relationships, making them important in personal, business, organizational, and governmental decision-making processes.
In personal contexts, they can be used for navigation and exploration through applications like Go-ogle Maps. In business and organizations, these data are used for logistics, planning, and risk management. For example, a company might use geographic data to choose a location for a new branch or to ensure a delivery route is efficient. Governments use such data for land management, urban planning, environmental protection, and emergency response among many others.
Geospatial data can be collected through various methods like surveys, remote sensing technologies (like satellite imagery), and can be displayed through maps, charts, or software applications, enabling users to analyze visually and make data-driven decisions.
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