By making it more streamlined and aerodynamic
Thrust - is the force pushing it forwards Drag - the force acting against the rocket Gravity - the force acting upon the rocket trying to push it towards the centre of the earth
By streamlining the aircraft.
its not circle its drag
It flys better and is awesome
aerodynamic.
The tip of a rocket is pointy to increase aerodynamics and reduces drag. For example, if a rocket had a flat end, it would create more drag and slow the rocket down. It's also the same for planes too.
To reduce drag while passing through the atmosphere.
the aerodynamics of the bottle can be increased or the bottle can be smoothened on all the sides therby increasing the aerodynamics therby decreasing the drag of the vehicle
A longer fin has increased aerodynamic drag. The geometric relationship between the drag caused by the fins and the center of gravity of the rocket determine the stability of the rocket in flight. Less aerodynamic drag means the rocket can go higher or farther, but it also means the rocket is less stable in flight. This tradeoff has to be considered in the design of the rocket.
While a nose cone can either reduce or add drag, it provides a minimal amount of stability to the rocket' flight path. The fins are the most critical component for stabilizing a rocket's flight path; that's where your focus should be.
Thrust - is the force pushing it forwards Drag - the force acting against the rocket Gravity - the force acting upon the rocket trying to push it towards the centre of the earth
don't drag it copy and paste it
it doesn't
By streamlining the aircraft.
There are four forces acting upon a rocket these are: Thrust, Gravity, Drag and Lift.
You use fins and a nose cone on a bottle rocket because the cone reduces the drag on the rocket, and the fins help stabilize the rocket.
to reduce drag