Yes dsp2 is an inner orbital complex. It involves the inner d orbital.
Makemake's orbital period is 309.88 years or 113,183 days
Inner planets are typically rocky, smaller in size, have shorter orbital periods, and lack rings. Outer planets are gaseous or icy, larger in size, have longer orbital periods, and possess rings and many moons. Additionally, inner planets are closer to the Sun, while outer planets are farther away.
its strong gravitational pull, causing them to potentially change their orbits over time. This gravitational influence from Jupiter is known as orbital resonance, where the asteroids' orbits are synchronized with Jupiter's orbital period. Jupiter's presence can also help to protect the inner solar system from potential asteroid impacts by redirecting or absorbing their trajectories.
Since Helium is a noble gas meaning it is stable, and the fact that it has one shell, it has 2 shells in its inner-most shell.
Comets with short orbital periods are located in the inner solar system, typically with orbits that are less than 200 years. These comets originate from the Kuiper Belt or the scattered disk region beyond Neptune and are influenced by the gravitational forces of the gas giants in the outer solar system. They have more frequent appearances in our skies compared to comets with longer orbital periods.
Inner orbital complex involves the participation of inner d orbitals in bonding, which results in high spin configurations and smaller ligands. Outer orbital complex involves the participation of outer d orbitals in bonding, leading to low spin configurations and larger ligands.
i think it the inner part of the object
No, Q is the outermost orbital. K is the first one.
The 5D orbital would have more energy than the 5P orbital. This is due to the fact that in general, d orbitals have higher energy than p orbitals because they experience more shielding from inner electrons and have a more complex shape which leads to higher energy.
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.
Oxygen has 2 electrons in the innermost orbital and 6 in the outermost (valence) orbital.
The orbital diagram of cesium (Cs) would show its electron configuration as [Xe] 6s1, where [Xe] represents the electron configuration of the inner noble gas xenon. This means that cesium has one valence electron in its outermost 6s orbital.
Makemake's orbital period is 309.88 years or 113,183 days
In nitrogen, the inner shell consists of two electrons, which fill the 1s orbital.
Electron in s-orbital is closer to nucleus than electron in p-orbital and electron in p-orbital is closer to nucleus than electron in d-orbital and so on. So,more energy is requried to remove electron from s-orbital than electron in p-orbital in spite of both having same principal quantum number. Similarly, p orbital will require more energy than d-orbital. this is called penetrating effect. it decreases in order s>p>d>f>... Note that Orbital should have same "n"
An electron in a phosphorus atom would experience the greatest shielding in the 3s orbital. This is because electrons in inner shells provide greater shielding than those in outer shells, and the 3s orbital is closer to the nucleus compared to the higher energy orbitals.