Wind speed is 30 while the plane speed it 460
about 25-30 times
An average wind speed of 30 km/h over the course of a month indicates that, throughout that time period, winds consistently blow at this speed. To put it in perspective, this means that for every hour in the month, the wind is expected to travel 30 kilometers. Over 30 days, this translates to a total distance of approximately 21,600 kilometers if the wind maintains that speed continuously. However, actual conditions can vary significantly, with some days experiencing higher or lower wind speeds.
Starting at 4:05, wind the clock back 35 minutes, you arrive at 3:30, now wind the clock back the remaining 1 hour to get 2:30.
Yes because 29--1 = 30 Remember a double negative becomes a positive
The trade winds.
The westerlies are prevailing winds that blow from west to east between 30 and 60 degrees latitude in both the Northern and Southern Hemispheres. These winds are responsible for much of the weather movements in these regions.
The wind does not always blow from the west. In the northern hemisphere there are a number of air currents that move in different directions. The same is true for the southern. In the latitudes in which the US lies, the general direction of air movement is west to east, but this varies slightly depending on storm fronts.Movement of the air is generally determined by Coriolis effects.Air in the northern cell move easterly, air in the Hadley cells, nearer to the equator move in a westerly direction.
Wind speed is 30 while the plane speed it 460
The 30 degree latitude area is at the high pressure region developed by the sinking air from the Hadley Cell created by the low pressure rising air at the equator. Winds move from high to low pressure areas. The doldrums are located at the equator, this is a low pressure area. When the air sinks at the 30 degree latitude air moves away from the 30 toward the equator and 60 degree latitudes. Since air does not move toward the 30, there is no way to bring the maritime air masses to those desert areas.
In a boiler system you raise the static pressure via the fill valve to 25 psi (on a 30 psi system) and circulate the fluid. If there are air eliminators in the system, you would crack them to allow the air to escape.
ds are part of (in) the air and the air moves (wind blows) and this moves the clouds too.Answer:Clouds move because the wind pushes them. If it is a windy day, the clouds move fast. If it isn't windy, the clouds move very slowly.
A 30 mph wind would appear as moderate to strong, causing trees to sway and small branches to move. It may also create ripples on water surfaces and make it difficult to hold onto lightweight objects.
Technically, but unlikely. For instance, a slow airplane is capable of staying in the air at about 30 knots/34 mph. 34 mph is a pretty strong wind, but in hurricanes, winds can be as fast as 150 mph. If a plane is flying directly into the wind at 30 knots, and the wind is blowing at 30 knots, the plane will not be moving relative to the ground. (Ground speed zero). The planes airspeed will still be 30 knots. NASA has a plane that goes very slow (slower than a bicycle). In a stiff wind, it will go backwards relative to the ground. Most pilots wouldn't fly in a wind that was blowing at a speed capable of holding them in one place. Not because of any danger in the air, because there wouldn't be, but because landing (on the runway) would be extremely difficult to impossible.
The speed required to move a rock with wind depends on the rock's size, shape, and weight. Generally, wind speeds of at least 20-30 miles per hour are needed to significantly move small rocks, while larger rocks may require much stronger winds exceeding 40-50 miles per hour.
Up to 30%
30 for 30 - 2009 Into the Wind 1-23 was released on: USA: 2010 USA: 28 September 2010