Question

what is called outermost give a brief account on it​

Answer 1

The Outer Shell

Earth’s outermost, rigid, rocky layer is called the crust. It is composed of low-density, easily melted rocks; the continental crust is predominantly granitic rock (see granite), while composition of the oceanic crust corresponds mainly to that of basalt and gabbro. Analyses of seismic waves, generated by earthquakes within Earth’s interior, show that the crust extends about 50 km (30 miles) beneath the continents but only 5–10 km (3–6 miles) beneath the ocean floors.

Earth: surface composition

Earth: surface composition

Percentage of Earth's surface devoted to various land and water features.

Encyclopædia Britannica, Inc.

At the base of the crust, a sharp change in the observed behaviour of seismic waves marks the interface with the mantle. The mantle is composed of denser rocks, on which the rocks of the crust float. On geologic timescales, the mantle behaves as a very viscous fluid and responds to stress by flowing. Together the uppermost mantle and the crust act mechanically as a single rigid layer, called the lithosphere.

The lithospheric outer shell of Earth is not one continuous piece but is broken, like a slightly cracked eggshell, into about a dozen major separate rigid blocks, or plates. There are two types of plates, oceanic and continental. An example of an oceanic plate is the Pacific Plate, which extends from the East Pacific Rise to the deep-sea trenches bordering the western part of the Pacific basin. A continental plate is exemplified by the North American Plate, which includes North America as well as the oceanic crust between it and a portion of the Mid-Atlantic Ridge. The latter is an enormous submarine mountain chain that extends down the axis of the Atlantic basin, passing midway between Africa and North and South America.

The principal tectonic plates that make up Earth's lithosphere. Also located are several dozen hot spots where plumes of hot mantle material are upwelling beneath the plates.

The principal tectonic plates that make up Earth's lithosphere. Also located are several dozen hot spots where plumes of hot mantle material are upwelling beneath the plates.

Encyclopædia Britannica, Inc.

The lithospheric plates are about 60 km (35 miles) thick beneath the oceans and 100–200 km (60–120 miles) beneath the continents. (It should be noted that these thicknesses are defined by the mechanical rigidity of the lithospheric material. They do not correspond to the thickness of the crust, which is defined at its base by the discontinuity in seismic wave behaviour, as cited above.) They ride on a weak, perhaps partially molten, layer of the upper mantle called the asthenosphere. Slow convection currents deep within the mantle generated by radioactive heating of the interior drive lateral movements of the plates (and the continents on top of them) at a rate of several centimetres per year. The plates interact along their margins, and these boundaries are classified into three general types on the basis of the relative motions of the adjacent plates: divergent, convergent, and transform (or strike-slip).

Production and destruction of Earth's crust according to the theory of plate tectonics. Oceanic crust is continually generated at divergent plate boundaries (typified by midocean ridges and their rift zones) from upwelling mantle material, and it is consumed in the subduction process at convergent plate boundaries (marked by deep-sea trenches). Areas of convergence are sites of mountain building or of formation of volcanic island arcs. At transform, or strike-slip, boundaries, two plates slide past each other laterally; these areas are often associated with a high frequency of earthquakes.

Production and destruction of Earth's crust according to the theory of plate tectonics. Oceanic crust is continually generated at divergent plate boundaries (typified by midocean ridges and their rift zones) from upwelling mantle material, and it is consumed in the subduction process at convergent plate boundaries (marked by deep-sea trenches). Areas of convergence are sites of mountain building or of formation of volcanic island arcs. At transform, or strike-slip, boundaries, two plates slide past each other laterally; these areas are often associated with a high frequency of earthquakes.