Answer:

1) oceanic crust

2) continental crust

Explanation:

• Earth's crust is divided into two types: oceanic crust and continental crust. The transition zone between these two types of crust is sometimes called the Conrad discontinuity. Silicates (mostly compounds made of silicon and oxygen) are the most abundant rocks and minerals in both oceanic and continental crust....

• In geology, the crust is the outermost solid shell of a rocky planet, dwarf planet, or natural satellite. It is usually distinguished from the underlying mantle by its chemical makeup; however, in the case of icy satellites, it may be distinguished based on its phase (solid crust vs. liquid mantle).

The crusts of Earth, Mercury, Venus, Mars, Io, the Moon and other planetary bodies formed via igneous processes, and were later MODIFIED by erosion, impact cratering, volcanism, and sedimentation.

Most terrestrial planets have fairly uniform crusts. Earth, however, has two distinct types: continental crust and oceanic crust. These two types have different chemical compositions and physical PROPERTIES, and were formed by different geological processes.....

• 1 Types of crust

• 1.1 Primary crust / primordial crust

• 1.2 Secondary crust

• 1.3 Tertiary crust

• 2 Earth's crust

• 3 Moon's crust

• Primary crust / primordial crust:

This is a planet's "original" crust. It forms from solidification of a MAGMA ocean. Toward the end of planetary accretion, the terrestrial planets likely had surfaces that were magma oceans..

• Secondary crust:

Secondary crust is formed by partial melting of silicate materials in the mantle, and so is usually basaltic in composition...

• Tertiary crust:

Tertiary crust is more chemically-modified than EITHER primary or secondary. It can form in several ways:

Igneous processes: partial-melting of secondary crust, coupled with differentiation or dehydration

Erosion and sedimentation: sediments derived from primary, secondary, or tertiary crust

The only known example of tertiary crust is the continental crust of the Earth. It is UNKNOWN whether other terrestrial planets can be said to have tertiary crust, though the evidence so far suggests that they do not. This is likely because plate tectonics is needed to create tertiary crust, and Earth is the only planet in our Solar System with plate tectonics.

• Earth's crust:

The Earth's crust is a thin shell on the outside of the Earth, accounting for less than 1% of Earth's volume. It is the top component of lithosphere: a division of Earth's layers that includes the crust and the upper part of the mantle. The lithosphere is broken into tectonic plates that move, allowing heat to escape from the interior of the Earth into space

• Moon's crust:

A theoretical protoplanet named "Theia" is thought to have collided with the forming Earth, and part of the material ejected into space by the collision accreted to form the Moon. As the Moon formed, the outer part of it is thought to have been molten, a "lunar magma ocean." Plagioclase feldspar crystallized in large amounts from this magma ocean and floated toward the surface. The cumulate rocks form much of the crust. The upper part of the crust probably averages about 88% plagioclase (near the lower limit of 90% defined for anorthosite): the lower part of the crust may contain a higher percentage of ferromagnesian minerals such as the pyroxenes and olivine