Yes, because the longer cannon have more energy.
water travels faster in air
If a car travel twice as fast it will skid four times as far and it will be 9 times farther if it travels three times as fast.
It travels further with more air pressure.
As opposed to travelling in what? But if you mean sound then its because sound is - technically speaking - a vibration of the molecules. It is slower in air because the molecules are farther away from each other, and thus the molecules take much longer to interact. In water, the molecules are closer together, and therefore pass on the vibration quicker. This also relates to why water takes sound much farther as opposed to air. :)
If you do not take air resistance into account, a projectile fired at 45° above horizontal will travel farther than a projectile fired at any other angle.
The moon has no atmosphere and has less gravity than the earth. That means that a cannonball fired on the moon will travel further.
shorter
They have a longer distance to travel. If you go around something, the further away from it you are, the longer the journey you have to go will be.
Gases have the least amount of molecules and they are spread farther apart so it takes a longer time for the sound energy to travel from molecule to molecule.
Some planets take longer to orbit the sun because they are farther away giving them a longer path to travel.
The range of a projectile is given by R=(v2/g)Sin(2Theta) so for an angle of 30 and an initial speed of 100 m/s: R=(1002/9.8)Sin(60)=(10000/9.8)(sqr3/2)= 883.7 m ^^know-it-all! :@ ^^^^^^^^^;)
People could travel farther and more frequently. Also, rail travel was safer
They travel farther to get to Dallas. Houston is on the eastern side of Texas, closer to Florida.
cowboys are farther.
The outer planets take longer to orbit the Sun, because they are farther away from the Sun. It make its gravitational pull weaker to the farther planets. That means that the outer planets take longer to orbit the Sun.
Solids.
Not always. Different chromosomal fragments travel different distances in electrophoresis due to their different lengths. Longer fragments are heavier and therefore travel shorter distances under the same electrical force.