The highest point a rocket reaches during its flight is typically the apogee, which is the point of maximum altitude. This is the point where the rocket reaches its peak altitude before descending back to Earth.
Fins on a rocket affects its flight by the way they are built on the rocket
The stages of rocket flight include liftoff (launch), ascent (climbing into space), orbital insertion (reaching desired orbit), payload deployment (releasing satellites or spacecraft), and reentry (returning to Earth's atmosphere). Each stage involves specific maneuvers and actions to achieve the rocket's objectives.
A plane needs air, a rocket doesn't.
Incredibly ! -In rocket flight streamlining is the single most important factor.
Air resistance acts against the motion of a rocket by creating drag, which can slow down the rocket's acceleration and decrease its maximum speed. The more streamlined a rocket is, the less air resistance it will face, allowing it to move more efficiently through the atmosphere. Overall, air resistance can impact the performance and efficiency of a rocket during its flight.
The liquid-fueled rocket was invented in Germany by scientist and engineer Robert H. Goddard in the 1920s.
To achieve flight in Earth's atmosphere, you would typically use jet engines, turboprop engines, or piston engines. In outer space, rocket engines are commonly used for propulsion due to the lack of air for combustion. Rocket engines propel spacecraft by expelling mass in the form of hot gases at high speeds.
To keep the rocket in straight,stable flight.
used up rocket stages
skyrockets in flight, umm, rocket man, there are alot of them
If you are regarding the flight of the rocket itself, one can record: 1) Maximum Altitude (apogee) 2) Speed 3) Flight time 4) Time to Apogee 5) Acceleration There are plenty of electronic modules that can record all of this and more that are small enough to fit in a 1" Diameter bodytube.