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Tessellation is repeating a pattern over and over and filling an area with no overlaps and no gaps. Some shapes can't do this, because they don't fit with themselves without leaving big gaps between the parts.
The shape of a molecule only describes the arrangement of bonds around a central atom. The arrangement of electron pairs describes how both the bonding and nonbonding electron pair are arranged. For example, in its molecular shape, a water molecule is describes as bent, with two hydrogen atoms bonded to an oxygen atom. However, the arrangement of electron pairs around the oxygen atom is tetrahedral as there are two bonding pairs (shared with the hydrogen) and also two nonbonding pairs.
Refrain is the act of repeating a LINE at the END OF THE STANZA.Repetition IS the act of repeating.
A terminating decimal is a decimal that ends. A repeating decimal is a decimal that goes on and on.
The term that describes comparing differences between things is the word contrast.
No spaces or overlaps exist between it's pieces.
The regular repeating arrangement of ions in an ionic compound is called a crystal lattice. This lattice structure is formed as a result of the strong electrostatic attraction between positively and negatively charged ions, leading to a stable arrangement that extends in three dimensions.
Tessellation is repeating a pattern over and over and filling an area with no overlaps and no gaps. Some shapes can't do this, because they don't fit with themselves without leaving big gaps between the parts.
The shape of a molecule only describes the arrangement of bonds around a central atom. The arrangement of electron pairs describes how both the bonding and nonbonding electron pair are arranged. For example, in its molecular shape, a water molecule is describes as bent, with two hydrogen atoms bonded to an oxygen atom. However, the arrangement of electron pairs around the oxygen atom is tetrahedral as there are two bonding pairs (shared with the hydrogen) and also two nonbonding pairs.
experimentally that the lenght and strenght of the bond between the oxygens suggests a double bond. The valence bond theory views multiple bonds as overlaps between orbitals that lie off the bond axis on top of an overlap on the bond axis. The overlap on the bond axis is sigma bond. The overlaps off the bons axis is pi bonds
A crystal lattice refers to the arrangement of atoms or ions in a crystal structure, whereas a space lattice refers to the repeating 3D arrangement of points or nodes in space that represent the positions of lattice points in a crystal lattice. In other words, a crystal lattice describes the atomic arrangement within a crystal, while a space lattice defines the spatial arrangement of points representing the crystal lattice.
A crystal refers to a solid material with a specific repeating atomic structure, typically with flat surfaces and geometric shapes. Luster, on the other hand, refers to the shine or reflective quality of a surface, which can be metallic, glassy, or dull. In summary, crystals describe a material's structure, while luster describes its appearance.
The repeating arrangement of atoms in a mineral forms a crystal due to the strong forces of attraction between the atoms, which result in a stable and orderly structure. This repeating pattern allows the mineral to grow in a geometrically regular shape, creating distinct crystal faces and external symmetry.
No, there would be triangles in between. Sorry!
Yes, ionic compounds often form crystals with characteristic shapes due to their repeating arrangement of positive and negative ions in a crystalline lattice. This arrangement is governed by electrostatic forces between the ions, leading to specific geometric patterns that define the crystal shape.
In geometry, when quadrilaterals tessellate, they fill a finite or infinite space with no overlaps or gaps between shapes. All quadrilaterals tessellate because they can all be linked together side by side in some shape or form with no overlaps. In geometry, when quadrilaterals tessellate, they fill a finite or infinite space with no overlaps or gaps between shapes. All quadrilaterals tessellate because they can all be linked together side by side in some shape or form with no overlaps.
Crystalline solids have a well-ordered arrangement of atoms or molecules in a repeating pattern, whereas amorphous solids lack a long-range order and have a random arrangement of atoms or molecules. This difference leads to variations in properties such as melting point, transparency, and mechanical strength between the two types of solids.