7.5 million pounds or 160,000,000 horse power.
Varies depending on the rocket. The tallest, heaviest and most powerful rocket ever manufactured, the Saturn V, produces 7.5 million pounds of thrust.
10,0000,00000009
Liquid rocket engines would act much like a car engine. More fuel, more thrust. Solid rocket engines are either on or off. No throttle control.
The saturn V first stage produced thirty-four mega newtons of thrust by five F-1 engines.
The weight of a Saturn V rocket just before launch is approximately 3 039 000 Kg.
Varies depending on the rocket. The tallest, heaviest and most powerful rocket ever manufactured, the Saturn V, produces 7.5 million pounds of thrust.
Enough to lift a small rocket 5-600 feet.
10,0000,00000009
Liquid rocket engines would act much like a car engine. More fuel, more thrust. Solid rocket engines are either on or off. No throttle control.
5 Million Newtons was the pressure exerted by Saturn v rocket
8 million pounds
Rockets ignite propellants to produce thrust. Thrust is the physical force generated by the rocket's engines burning fuel and is required to overcome the effect of gravity. When designing rockets, engineers determine the mass of the rocket to determine how much force gravity exerts on it. Then, the thrust force generated by the rapidly burning propellant must accelerate the rocket to escape velocity (where thrust is greater than gravitational pull on the mass of the rocket)
The saturn V first stage produced thirty-four mega newtons of thrust by five F-1 engines.
The weight of a Saturn V rocket just before launch is approximately 3 039 000 Kg.
about 7.2 million pounds of thrust (Solid Rocket Boosters and Main Engines combined)
The amount of exposed surface area of the fuel
Any amount of thrust greater than the total weight of the complete vehicle is enough to do the job, if the thrust lasts long enough and points in the right direction.