round, as in the shape of a circle or earth
The shape of molecules is determined by the number of bonding and non-bonding electron pairs around the central atom. The VSEPR (Valence Shell Electron Pair Repulsion) theory is commonly used to predict molecular geometry based on electron pairs' repulsion. The arrangement of these electron pairs results in different molecular shapes such as linear, trigonal planar, tetrahedral, and more.
The VSEPR theory allows us to determine the molecular geometry of a molecule based on the number of electron pairs around the central atom. It helps predict the shape of molecules by minimizing electron pair repulsion. This theory is useful in understanding the spatial arrangement of atoms in molecules and their properties.
The number of electron pairs around the central atom determines its shape by following the VSEPR theory, which states that electron pairs arrange themselves around the central atom to be as far apart from each other as possible. The arrangement of electron pairs gives rise to specific molecular geometries, which in turn determine the overall shape of the molecule.
Water is a universal solvent and can dissolve many substances, but it cannot dissolve non-polar substances like oil, grease, and some plastics. These substances do not have a charge and therefore do not interact well with water molecules.
The predominant force between IBr molecules in liquid IBr is Van der Waals forces, specifically dipole-dipole interactions and London dispersion forces. These forces are responsible for holding the IBr molecules together in the liquid state.
A front foot assessment is a method used in horse care to evaluate the hoof health and conformation of a horse's front feet. It involves examining aspects such as hoof shape, balance, and signs of any issues like lameness or injuries. This assessment helps determine the overall soundness and well-being of the horse.
solids are hard the molecules are squished together and if you pour it in a glass it wont take shape. liquids will take any shape
3 d modeling
the form determines how the organic molecule will look and the shape will determine how the behave organic molecule reacts with other molecule
DNA codes for all of the proteins in the cell. Proteins are used as many things within the cell, including signalling molecules which communicate between different parts of the cell, and enzymes, which can adjust the length of structural molecules which keep the cells shape. The shape of the cell is also determined by physical constraints such as outside pressure, the surface area/volume ration, and how fast molecules can diffuse into the centre of the cell.
The factors affecting the shape of the molecules are the bonded e and the lone pairs of electrons
The VSEPR theory allows us to determine the molecular geometry of a molecule based on the number of electron pairs around the central atom. It helps predict the shape of molecules by minimizing electron pair repulsion. This theory is useful in understanding the spatial arrangement of atoms in molecules and their properties.
The chemical compositon and the chemical bonds affect the shape of molecules..
The DNA sequence will determine the amino acid sequence known as the protein's primary structure. As the protein is folded into the secondary, tertiary and quatranary structures, the amino acid molecules will determine the shape
A. The geometry it will have
Double-helix (or spiral staircase). They used x-ray diffraction data from Rosalind Franklin to determine this.
The general shape is "bent".
The DNA sequence will determine the amino acid sequence known as the protein's primary structure. As the protein is folded into the secondary, tertiary and quatranary structures, the amino acid molecules will determine the shape