The rocket's fins stabilize its flight by creating torque that counteracts any spinning motion. Additionally, the rocket's engine nozzle redirects the exhaust gases to create a straight and balanced thrust force, which helps keep the rocket flying in a straight line. Finally, a well-designed aerodynamic shape reduces drag and ensures smoother flight.
Answer #1:the rockets need to go that fast so that it can escape the earth's gravitational pull,so if you were on jupiter, it would have to go faster.===========================Clarification #1:There's no limit to the distance over which Earth's gravity acts.But the faster you're going when you leave, the more time it takes for Earth'sgravity to slow you down, turn you around, and make you start falling back.There is a certain speed at which, mathematically, the time it takes for thatto happen becomes infinite. So, even though Earth's gravity never stops pullingto bring you back, that's the speed at which we say the rocket has 'escaped'.
A gyroscope will use the principle of angular momentum to do one or both of two things for a rocket. 1. Stabilize the rocket in terms of pitch, thereby limiting the amount of fin surface area that is required. 2. Minimize roll, allowing the rocket to go higher and faster.
A rocket can go farther by maximizing its thrust through efficient engine design and fuel combustion. Reduced air resistance and optimal trajectory planning also contribute to achieving greater distance in space travel. Additionally, lightweight materials and payload management can help increase the rocket's speed and range.
A rocket on the moon can reach higher altitudes compared to one on Earth due to the moon's lower gravity and lack of atmosphere. On the moon, a rocket could potentially reach several kilometers in altitude, while on Earth it would likely be limited by the atmosphere to only a few hundred kilometers.
you can angle the fishing line twords the ceiling. this will help because gravity is helping it
Yes, it helps the rocket to go faster.
Nothing has ever gone faster than the speed of light.
A small rocket might go higher because a smaller rocket has less weight
If the nose is pointy, the rocket will go faster, but if the rocket's nose is flat, it will just travel slower in the lower atmosphere, the height a rocket attains depends on the efficiancy of its engines, the amount of propellant carried and the launch profile. However, for a subsonic rocket (which is what most hobby rockets are) then a curved on not a pointy one is much better. I would suggest looking it up on wikipedia.
The third stage of a multistage rocket can go faster than the first stage because it is lighter and has fewer engines to carry. As each stage burns its fuel and separates, the rocket sheds weight, allowing the remaining stages to accelerate more easily due to a lower overall mass.
Faster than you can run, but not faster than you can drive a car.
About 300mph. They are not the fastest cars though - unlike with planes, jet cars are faster.
it was changed by people putting more gas tanks on it and it was made to go faster
Answeru can put in a big bore kit or a rocket key to make it faster NAAAAGGGHHTTTTTWhat you have to do is strap a rocket to your back and lean forward. BUT MAKE SURE YOU DONT TURN THE ENGINE ON!!!
The rocket's fins stabilize its flight by creating torque that counteracts any spinning motion. Additionally, the rocket's engine nozzle redirects the exhaust gases to create a straight and balanced thrust force, which helps keep the rocket flying in a straight line. Finally, a well-designed aerodynamic shape reduces drag and ensures smoother flight.
A rocket can go faster than a jet because it does not have to deal with the problem of supersonic shock waves blocking the airflow in the intake and thus putting the engine out. However the rocket must carry its own oxidizer.