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What is the difference between lone pair and bonding pair electron?
they are the same. Lone pair is unshared pair of electrons and bond pair is shared pair of electron.
What is the electron pair geometry for CS2?
The electron pair geometry for CS2 is Linear.
What is the molecular geometry of a molecule with 5 outer atoms and 1 lone pair on the central atom?
Anything with six electron groups, keep in mind an electron group is a bonded atom or an electron pair, is an octahedral. Anything in an octahedral and a lone pair is the square pyramidal geometry. So all angles between the atoms are a little less than 90 degrees and the angle of the electron pair is greater than 90.
What is the electron pair geometry for O3?
the electron pair geometry would be trigonal planar because there is a lone pair on the oxygen atom. The molecular pair geometry would be bent
What effect does a lone electron pair have on molecular shape?
The lone pair pushes bonding electron pairs away.
What is the difference between lone pair and bonding pair electron?
they are the same. Lone pair is unshared pair of electrons and bond pair is shared pair of electron.
Diffirences of bonded and lone pair electron?
The difference between bonded and lone pair is that a bond pair is composed of two electron that are in a bond whereas lone pair is composed of two electron that is not a bond.
What is the difference between nucleophiles and electrophiles?
Nucleophiles are electron-rich species that donate a pair of electrons to form new chemical bonds, while electrophiles are electron-deficient species that accept a pair of electrons to form new chemical bonds. Nucleophiles attack electrophiles in chemical reactions to facilitate bond formation.
What is the difference between the Lewis model and the valence-shell electron pair repulsion (VSEPR) model?
VSEPR only shows the geometric shape of the element
What is the difference between an electron donor and electron acceptor?
An electron donor is a substance that gives away electrons during a redox reaction, becoming oxidized in the process. An electron acceptor is a substance that receives electrons during a redox reaction, becoming reduced. In summary, electron donors lose electrons, while electron acceptors gain electrons.
Why does a lone pair of electrons occupy more space on an atom?
A lone pair of electrons occupies more space on an atom because it is not being shared with another atom, allowing it to spread out more, leading to increased repulsion between electron pairs and causing the lone pair to push other electron pairs farther apart. This results in the lone pair taking up more space around the atom.
Which electron pair has the lowest electron electron repulsive forces?
The electron pair in a linear geometry (180 degree bond angle) experiences the lowest electron-electron repulsive forces because they are furthest apart from each other. This arrangement minimizes repulsion between electron pairs.
What is the electron pair geometry for CS2?
The electron pair geometry for CS2 is Linear.
What is the principles of directing?
ANSWERDirect current (DC) is the function of having a constantdifference in potential at opposite ends of an electrical circuit. An electrical circuit is any configuration that allows electrical current to flow across any point within the circuit.There is a phenomenon known as Galvanic Action. This occurs when a pair of conductors made from different materials makes contact. At the point of contact, the junction, there is a minuscule difference in potential between the two different materials. These potential differences are measured in micro-volts. These potential differences exist because every material, at rest, has a particular energy level unique to that material. Since there is a difference in energy level between any two materials, there exists an electrical potential difference between them as well.Only in conductors can electrical current flow freely. Electrical current flow is electron flow between atoms in a conductive material. Any material will conduct electricity given a high enough potential difference across the material. Gold, Silver, and Copper, are three examples of high conductivity materials, or good conductors. It takes a minuscule difference in potential to get electron flow within these materials. Plastic, glass, and porcelain are three examples of no conductivity materials, or good insulators. It takes an excessive difference in potential to break these materials down in order to get electron flow within these materials.Plastic is a relatively good insulator because it takes a considerable amount of potential difference (voltage) across the material to get electron flow within the material. This makes plastic a good insulator and this is why it is found in many electrical circuits. Porcelain is an insulator used in high voltage circuits. These are the long suspension devices used to hang high tension power cables you see on towers that deliver power between cities.I hope this makes some sense. This explanation could go on for a very long time.
What is the molecular geometry of a molecule with 5 outer atoms and 1 lone pair on the central atom?
Anything with six electron groups, keep in mind an electron group is a bonded atom or an electron pair, is an octahedral. Anything in an octahedral and a lone pair is the square pyramidal geometry. So all angles between the atoms are a little less than 90 degrees and the angle of the electron pair is greater than 90.
Can acids donate an electron pair?
No, acids cannot donate an electron pair. Acids are substances that tend to donate a proton (H+) in a chemical reaction, while bases are substances that can donate an electron pair.
What is the Lewis acids-base theory?
acid: electron pair acceptor Base: electron pair donor
