A topographic profile is a plot showing the shape of the surface of the ground (so hills, hillocks, dips, valleys and the like). Whereas a geologic cross section shows the order and structure of soils and / or rocks below the ground surface. Geologic sections are typically created by first drawing a topographic profile of the section of interest then adding in the underlying strata.
An example of the way they are created is given in the related links.
A topographic profile shows the elevation changes along a specific line on the Earth's surface, while a geologic cross section illustrates the subsurface rock layers and structures beneath the Earth's surface along a specific line. Topographic profiles focus on surface features, whereas geologic cross sections provide insights into the subsurface geological structures.
A topographic profile is a cross-sectional view of the elevation changes along a specific line or route on a topographic map. It provides a detailed representation of the terrain's highs, lows, and slopes, allowing for a better understanding of the landscape's features in a two-dimensional format. Topographic profiles help in visualizing the elevation changes and gradient of the land along a given path.
A landform map would show the physical features of Mount St. Helens, such as its shape and size, whereas a topographic map would also display the elevation changes on the mountain, including the contour lines that represent different elevations. The landform map would provide a more general overview of the mountain's physical characteristics, while the topographic map would offer a more detailed look at its elevation profile.
A lipid profile typically includes measurements of total cholesterol, LDL cholesterol, HDL cholesterol, and triglycerides. A lipid panel may refer to the same tests or can include additional measurements like VLDL cholesterol or lipid particle size. Essentially, a lipid profile is a subset of what might be included in a more comprehensive lipid panel.
A toolmaker's microscope is used for precise measurements and inspection of small parts, while a profile projector is used for inspecting the shape and dimensions of larger parts. The toolmaker's microscope magnifies the part for detailed measurements, while the profile projector projects a shadow of the part for comparison against a template or CAD drawing.
Topographic maps are used to show the shape and elevation of the land, making them useful for activities such as hiking, surveying, and environmental planning. They can help you navigate through various terrains, identify key features like mountains and valleys, and understand the slope of the land.
sometimes, the map view of an area is not enough. you can get a better feeling for the topography of earths surface from a profile view,or cross section. A profile view looks as though you were standing on earths surface and looking toward the horizon. examine the map view and profile view.
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A topographic profile is a cross-sectional view of the elevation changes along a specific line or route on a topographic map. It provides a detailed representation of the terrain's highs, lows, and slopes, allowing for a better understanding of the landscape's features in a two-dimensional format. Topographic profiles help in visualizing the elevation changes and gradient of the land along a given path.
There is no difference between the two. It is also called profile drag.
a mandatory A local user profile is stored on the computer to which the user logs on.
The feature has a steep slope with rugged terrain and sharp changes in elevation. It may have cliffs, ridges, and deep valleys, creating a complex topographic profile.
A gamertag is used online
To make a topographic map profile of a landform, you would need a topographic map of the area, a ruler or straight edge for measuring heights, graph paper or plotting software, and a pencil for marking elevations on the profile. Additionally, you may need a protractor to measure angles if the landform has slopes or changes in gradient.
A landform map would show the physical features of Mount St. Helens, such as its shape and size, whereas a topographic map would also display the elevation changes on the mountain, including the contour lines that represent different elevations. The landform map would provide a more general overview of the mountain's physical characteristics, while the topographic map would offer a more detailed look at its elevation profile.
The diameter is the same but the high profile has more of a projection.
Basically durability.
if you are a friend you can look at their profile. if you are a fan... i dont know