Any force larger than the weight is sufficient, if it is applied long enough.
To escape Earth's gravity, an object must overcome the force of gravity pulling it down. The force of gravity on Earth is approximately 9.8 m/s^2. To calculate the thrust needed to escape Earth's gravity, you would need to convert the weight of the object from pounds to kilograms (1 pound is approximately 0.4536 kilograms) and then multiply it by the acceleration due to gravity. In this case, if something weighs 1520 pounds, it would weigh approximately 689.5 kilograms, and the thrust needed to escape Earth's gravity would be 6751.1 Newtons (689.5 kg * 9.8 m/s^2).
People can escape gravity by achieving escape velocity, which is the speed needed to break free from Earth's gravitational pull. Alternatively, people can experience temporary weightlessness during a free fall in microgravity environments, such as in parabolic flight or in space.
Yes, force is needed to pick up an object. When you lift an object, you exert an upward force against the force of gravity acting on the object. The amount of force needed depends on the weight of the object.
No, a magnetic field is not needed to create gravity. Gravity is a fundamental force of nature that exists between all objects with mass, whereas magnetism is a different fundamental force that arises from the motion of electric charges.
Escape velocity is defined to be the minimum velocity an object must have in order to escape the gravitational field of the earth, that is, escape the earth without ever falling back. From the surface of the Earth, escape velocity (ignoring air friction) is about 7 miles per second, (11.2 km/sec) or about 25,000 miles per hour. Given that initial speed, an object needs no additional force applied to completely escape Earth's gravity. More can be seen about this in the related link below.
To escape Earth's gravity, an object must overcome the force of gravity pulling it down. The force of gravity on Earth is approximately 9.8 m/s^2. To calculate the thrust needed to escape Earth's gravity, you would need to convert the weight of the object from pounds to kilograms (1 pound is approximately 0.4536 kilograms) and then multiply it by the acceleration due to gravity. In this case, if something weighs 1520 pounds, it would weigh approximately 689.5 kilograms, and the thrust needed to escape Earth's gravity would be 6751.1 Newtons (689.5 kg * 9.8 m/s^2).
People can escape gravity by achieving escape velocity, which is the speed needed to break free from Earth's gravitational pull. Alternatively, people can experience temporary weightlessness during a free fall in microgravity environments, such as in parabolic flight or in space.
A rocket gets out of Earth's orbit by achieving escape velocity, which is the speed needed to break free from the gravitational pull of Earth. The rocket's engines provide thrust to accelerate it to this speed, allowing it to overcome Earth's gravity and travel into deep space.
According to most sources, the minimum speed needed to escape the Earth's gravity is 11.2km/s, so a rocket would need to travel at least this fast to get into outer space.
Jupiter's strong gravity and immense size make it difficult for a spaceship to achieve escape velocity needed to overcome its gravitational pull. Additionally, Jupiter's thick atmosphere creates drag that further hinders spacecraft from leaving its orbit.
A rocket that doesn't reach "escape velocity" will be overcome by gravity and will be pulled back down to Earth. Also, rockets which go into orbit have not reached escape velocity. Escape velocity is what is needed to completely leave earth's gravity well.
Rocket ships are launched by a combination of forces, including the thrust generated by the rocket engines and the force needed to overcome gravity. The thrust from the rocket engines propels the rocket forward, while the force needed to overcome gravity allows the rocket to lift off the ground and enter into space.
to draw the earths surface.
Rockets escape Earth's gravitational pull by achieving enough velocity to overcome gravity. They generate thrust by burning fuel, propelling them upward until they reach a speed of around 11 km/s (25,000 mph) - the minimum speed needed to break free from Earth's gravity and reach space.
To determine what escape aids and tools are needed.
they were better because ppl needed to be able to escape to something they enjoyed so sports began tp prosper
Yes, force is needed to pick up an object. When you lift an object, you exert an upward force against the force of gravity acting on the object. The amount of force needed depends on the weight of the object.