as the wings expand, more air is taken under them allowing the spinner to gain more speed
Drop per foot doesn't care about length of run, it depends on pipe size. Pipe larger than 2" needs only 1/8" per foot (37.5" fall for 300'), 2" and smaller needs 1/4" per foot (75" fall for 300')
It does not necessarily fall.
When using Chebyshev's Theorem the minimum percentage of sample observations that will fall within two standard deviations of the mean will be __________ the percentage within two standard deviations if a normal distribution is assumed Empirical Rule smaller than greater than the same as
they raise from crops and they fall from there empire
1 degree fall how much
How smaller, how faster the downglide
yes. gravitational force will act more powerfully on larger mass drop while on smaller mass drop less gravity acts.
The maximum speed that raindrops can fall is around 18mph, depending on their size. Larger drops fall faster than smaller drops, due to their greater mass.
If the parachute is too small, then the load it is carrying will fall faster, the same thing is with big parachutes. If it is medium sized it will fall at a desirable rate than a larger or smaller parachute.
a hamer t5o be simple but warning dont follow these instructions unless you arent going to use the spinners again. just beat the hell out of the spinners with a hammer until they fall off then just put them in your neighbrors yard so yoou dont have to fool with them.....BIG HAIRY
No. Waterspouts are generally smaller than most tornadoes. Though a few are in the same size range that tornadoes typically fall into.
No, they are speherical. As they fall faster the air forces them into a pancake shape, which then breaks up into smaller spheres. the smaller spheres may then join with others to make larger spheres and the process may begin again.
simply put: no a star is about the size of our sun, maybe a bit(or a lot) larger or smaller, but if it were to collide with earth, our whole planet would be... absorbed and we would all die
Gravity is the resulting force created, as infinitely smaller and smaller masses orbit larger masses in space, which allows matter to become compacted into smaller and more dense proximity, and at the same time, creating a relative void in space, which causes the less massive of two bodies in space, to continually fall toward the more massive body in space.
It evaporates
The big flat object is subject to air resistance on the earth. In a vacuum, it would fall at the same rate as the smaller object. Also, if the big flat object is a piece of paper, you can crumple it into a ball and it will fall at the same rate as the smaller object because air resistance will not be as much of a factor.
Large pieces will fall close to the volcano, due to variable weight and pressure.