The ends of all meridians of longitude converge at the north and south poles.
Their centers are all on the equator.
The meridians (lines of longitude) run from the North Pole to the South Pole. The Prime Meridian (zero Longitude) passes through Greenwich, England. Therefore, the answer to your question is the 'North Pole'.
No. All of the meridians merge in a single point at the poles.
No
The position of the specific point of center of mass is the point at which the object could be modeled to have all of its mass acting for all intensive purposes.
There's a simple answer: The earth is a sphere and the parallels are, well, parallel to each other. So obviously the ones closer to the poles are shorter than the ones closest to the Ecuator. As for the meridians all meet at one point ehich are the poles, so they are all the same length.
The meridians (lines of longitude) run from the North Pole to the South Pole. The Prime Meridian (zero Longitude) passes through Greenwich, England. Therefore, the answer to your question is the 'North Pole'.
The North Pole
All meridians of longitude converge at the north pole, which is the north extremity of the Earth's rotational axis. They also converge at the south pole, which is the south extremity of the Earth's rotational axis. Neither ponit is the 'beginning' or 'end' of the meridians.
No. All of the meridians merge in a single point at the poles.
All meridians of longitude converge (meet) at the north and south poles.
Of the twelve regular meridians, the yin meridians always flow up the body, and all the yang meridians always flow down.
With the exception of 15 45, all of them. You can travel east around the globe back to the starting point.
Some maps are squashed and stretched in such a way that meridians of longitude appear to be parallel (Mercator projection, for example). But the truth is that on the globe, the meridians all converge at the poles, and so they're not parallel.
All of them
All of them do.
No
Because the meridians are not parallel. They're the slices you make when you want to cut an orange into sections, where each slice goes through the same point on top and the same point on the bottom, and the pieces taper, from wide at the skin to nothing at the middle. The parallels are literally parallel. They're the slices you make when you want to cut the orange into "rounds", where the slices are all parallel, and the pieces are all circular disks of different sizes.