Does the tornado move faster or slower near the center?
If I place beads in the water tornado then I will see them move faster near the vortex because the tornado has faster moving water near the center.
i have done this experiment many times and you should write, "think that because of the current, created by me swirling the bottles, the water will flow into the next bottle in a tornado fashion, similar to when water drains out of a bath tub."
What i think that will happen is that one of the bottle will fill and the other bottle as ir swirls it will go up to the other bottle
It happens because when u swirl the water it goes to the edge and the air also swirls but in the middle that's is it's conclusion
the results is the ending product what do you see
Basically, a Tornado becomes very thin like a rope. Then it vanishes.
nothing
If you mean a hurricane in a bottle then yes, a hurricane in a bottle and a tornado in a bottle are the same thing. In shape, however, the vortex bears more resemblance to a tornado than a hurricane.
Whirlpool
no not really. To make a tornado in a bottle fill it up with water and add some food coulering to see it. newt just seal the cap and spin
The glitter helps emphasize the circular motion in the water and simulates the flying debris found in a real tornado.
A tornado is considered a tornado when it reaches the ground
it is a bottle shape
If you mean a hurricane in a bottle then yes, a hurricane in a bottle and a tornado in a bottle are the same thing. In shape, however, the vortex bears more resemblance to a tornado than a hurricane.
Both the tornado in bottle and a real tornado involve a vortex that strengthens via the principle of conservation of angular momentum.
It doesn't really. A tornado in a bottle provides amusement, but little else.
Hjjh
you spin the bottle fast and stop
Whirlpool
tell me the answer
Mainly scientists that study tornadoes or tornado watchers
It will not have air in the bottle for the food
by swirrling the bottle in circlesz causing a rotating funnel in the water
The amount of water and the temperature of the water and the angle the bottle was set in.