The coordinates 20N 60E correspond to a location in the Indian ocean, close to Somalia and the Arabian Sea.
The force needed to keep a 20N stone from falling would need to be 20N or greater in the opposite direction to counteract the force of gravity pulling the stone downwards. This force would need to be applied vertically upwards to effectively balance the gravitational force acting on the stone.
The horizontal force can be calculated using the formula Fhorizontal = Fcos(θ), where F is the given force (20N) and θ is the angle of inclination (30 degrees). Plugging in the values, we get Fhorizontal = 20N x cos(30) ≈ 17.3N.
These are the geogra[hic co-ordinates of a location on Earth. It should normally be written as 20N 55E . From an atlas the place is a section of the international boundary between Oman and Saudi Arabia.
The tension at every point in the rope must be 20N, and it must exert 20N of upward vertical force on the top of the bag. If there's any point in the whole arrangement where the upward and downward forces are not exactly equal, then the mass at that point must be accelerating up or down.
The net force is the difference between the two forces. In this case, the net force is 20N (left force) - 10N (right force) = 10N to the left.
The coordinates 20N and 60E correspond to a location in the country India.
The Arabian Sea
the absolute is 20n and 60e
60E
100 -20n = 80
4n-20n+25
The coordinates 20N 65W correspond to Haiti.
The coordinates 20N 78E correspond to India.
A desert at 20N and 35E would be the Sahara desert. This is the largest desert in the world.
The least common multiple (LCM) of 20n and 12 is 60n.
As long as the transmissions are of the same type, the 1997 4L 60e and the 205 4L 60e tramissions should be interchangeable.
Oman is 20n latitude and 57 e longitude