In space, the main forces acting upon a rocket include thrust generated by the engine to propel the rocket forward, gravity pulling the rocket towards a celestial body, and occasionally solar radiation pressure affecting the rocket's trajectory. Additionally, the rocket may experience small amounts of drag due to any lingering atmosphere in orbit.
Some forces that can act upon a moving object include friction, air resistance, gravity, and applied forces like pushing or pulling. These forces can affect the speed, direction, and motion of the object.
The main forces that act against a rocket are air resistance (drag) and gravity. Air resistance causes drag as the rocket moves through the atmosphere, which can slow it down. Gravity pulls the rocket back towards the Earth, requiring the rocket's engines to generate enough thrust to overcome it and achieve liftoff.
During takeoff, the main forces acting on a rocket are thrust (propulsion force pushing it upwards) generated by the engines, and gravity pulling it downwards. These forces must be balanced in order for the rocket to lift off. Additionally, aerodynamic forces such as drag can also affect the rocket's flight.
Thurst & Gravity & Air resistance
First law of motion is Object at rest/motion will stay in rest/motion unless an outside force acts upon it. The rocket ship isn't moving. But when you start it up, the gas molocules push downward at it is putting equal amout of force causeing it to move upward!
Tension and compression are the two forces that act upon a bridge.
False. An object will go on forever if there were no forces to act upon it. In space, a rocket will go forever at the speed it projects. We only need the engines to steer an for lift off. On Earth, a toy car will go a short distance when pushed. Friction will go against it.
Some forces that can act upon a moving object include friction, air resistance, gravity, and applied forces like pushing or pulling. These forces can affect the speed, direction, and motion of the object.
friction
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The main forces that act against a rocket are air resistance (drag) and gravity. Air resistance causes drag as the rocket moves through the atmosphere, which can slow it down. Gravity pulls the rocket back towards the Earth, requiring the rocket's engines to generate enough thrust to overcome it and achieve liftoff.
During takeoff, the main forces acting on a rocket are thrust (propulsion force pushing it upwards) generated by the engines, and gravity pulling it downwards. These forces must be balanced in order for the rocket to lift off. Additionally, aerodynamic forces such as drag can also affect the rocket's flight.
Some Forces do not involve physical contact between the bodies on which they act. -Jauan Williams 3182163642
Thurst & Gravity & Air resistance
First law of motion is Object at rest/motion will stay in rest/motion unless an outside force acts upon it. The rocket ship isn't moving. But when you start it up, the gas molocules push downward at it is putting equal amout of force causeing it to move upward!
When all the forces of a force system act in one plane it is called coplanar force system. If the forces act in more than one plane then it is forces in space. In this case forces are not contained in one plane. When all the forces of a system pass through a common point they are called concurrent forces. Thus we have concurrent coplanar forces when all forces are in one plane and pass through a common point. Also when forces in space pass through a common point we have concurrent forces in space.
-- Gravity. -- Thrust of the rocket engines. Slightly after lift-off, as the vehicle begins to pick up some vertical speed, air resistance also appears.