Yes dsp2 is an inner orbital complex. It involves the inner d orbital.
Out of the four, only Venus. Mercury's rotation is very slow though, compared with its orbital period of the sun.
Because with the 2nd ionisation of K, you are trying to take an electron from a fully filled orbital (octet rule) whereas with calcium it is getting down to a fully filled orbital
Inner planets are characterized by their proximity to the sun and their rocky composition. They are also known as terrestrial planets as they have solid surfaces and are made up of mostly rock and metal. Inner planets include Mercury, Venus, Earth, and Mars. They are generally smaller and have shorter orbital periods compared to outer planets.
As of 2011, Uranus has 27 known moons, which are named after characters from the works by William Shakespeare and Alexander Pope.The 5 largest moons (boldface) were the earliest discovered. The 13 inner moons are involved with the 13 known rings of Uranus. [See related question.]Listed in order of increasing orbital distance from Uranus:CordeliaOpheliaBiancaCressidaDesdemonaJulietPortiaRosalindCupidBelindaPerditaPuckMabMirandaArielUmbrielTitaniaOberonFranciscoCalibanStephanoTrinculoSycoraxMargaretProsperoSetebosFerdinand.
In a neutral Lithium-7 atom, it would have 3 electrons in two concentric S orbitals located around the nucleus - the inner orbital with two, and the outer with only one electron. In the nucleus in the center of the atom, there would be three protons, and four neutrons bound together.
If inner d orbital is involved in hybridization, it is called inner d orbital complex. and if outer d orbital is involved in hybridization then it is called 'outer d orbital complex'.
i think it the inner part of the object
No, Q is the outermost orbital. K is the first one.
They are farther away and have larger orbital periods.
Mercury is the fastest orbiting planet in the inner Solar System, with an average orbital velocity of 47.87 km/s.
Lets first take the case of the d3 compound. The no.of orbitals in the 3d shell is 5. If three electrons occupy three orbitals then there are two free orbitals.Therefore According to Valence bond theory the six water ligands will use the two inner d orbitals the outer s and the p orbitals to form an inner orbital complex with hybrisation d2sp3. In the second case we have the d5 compund. Since there are five electrons in the d subshell the five electrons singly occupy all the five d orbitals. Here 's where the concept of the weak ligand comes in. Since water is a weak ligand it cannot force pairing of the unpaired d electrons to make room for an inner orbital complex. Thus it has to use the outer d orbital to form an outer orbital complex with hybridisation of sp3d2. Since the Inner orbital (low spin) complex is more stable than the outer orbital (high spin) complex. Thus d3 configuration is more stable than d5 configuration in aqueous medium.
Oxygen has 2 electrons in the innermost orbital and 6 in the outermost (valence) orbital.
The average orbital path of the planets forms the elliptic plane. The two inner planets have the greatest deviation from the path, with Mercury at 7.01 degrees and Venus at 3.39 degrees.
I would think the s orbital, because it is closer to the nucleus, and because the outer energy level holds more energy than the inner ones.
There isn't any relatonship between the orbital distance of the planet, and its rotational speed.
Out of the four, only Venus. Mercury's rotation is very slow though, compared with its orbital period of the sun.
The way gravity works, the closer an orbiting body is to the central body,the faster it moves in its orbit. So the planet with the greatest orbital speedwould be Mercury.