No. Sometimes (in summer, if you live in the northern hemisphere) it is further north; in winter it is further south.
Same way as the Earth, since they move together.
As you move across a period in the periodic table from left to right, the number of valence electrons increases, typically from one to eight, as elements gain electrons in their outer shell. Conversely, as you move down a group, the number of valence electrons remains the same, but the energy level increases, meaning that the valence electrons are found in higher energy levels further from the nucleus. This results in similar chemical properties within a group, despite differing reactivity and size.
Yes, generally the electronegativity of elements increases as you move from left to right across a period on the periodic table. This trend is due to the increased nuclear charge and decreased atomic size as you move across the period, which results in stronger attraction for electrons.
Symport is a type of membrane transport where two different molecules are transported in the same direction across a membrane, while antiport is a type of membrane transport where two different molecules are transported in opposite directions across a membrane. In symport, the molecules move in the same direction to maintain equilibrium, whereas in antiport, the molecules move in opposite directions to create a gradient.
Yes. Generally atomic radii turn to decrease as you move across the periodic table from left to right. this is because the nuclear charge increases as you move right across the period but the electron screening remains the same. consequently, the protons in the nucleus has a greater pull on the electrons.
Same way as the Earth, since they move together.
Yes, as long as you can commute to the school everyday and you are still in the same country.
The answers are not the same dude!
As you move across a period, elements have the same number of electron shells but different numbers of valence electrons. This leads to differences in reactivity and chemical properties across the period.
The energy of the valence shell remains the same.
They are a in the same pattern.
They are a in the same pattern.
They are a in the same pattern.
Examples of fractals in everyday life would be for example a fern. A fern is a type of leaf with a certain pattern. This pattern is the fractal because as you zoom in on the fern the pattern remains the same. It is the same thing over and over again no matter how far you look into it. This happens because of the fractal dimension.
The Moon travels across the sky in the same direction as the Sun; Its' leading edge is the point at which phase changes start and move from right to left.
They will move horizontally, always maintaining the same distance from the horizon.
There is no pattern, but you should do it the same way you do it with any vehicle...work by tightening one lug, then do the one across from it, then the one across from that, etc...the idea is to get an even pressure.