I believe earth eats the apple. that's it.
According to Newton's third law, the apple exerts an equal and opposite force on the Earth when it is dropped. This force is equal in magnitude to the force exerted on the apple and causes the Earth to accelerate towards the apple, although this acceleration is extremely small due to the Earth's large mass compared to the apple.
bb gunz
The weight of 1 kg of mass is about 9.8 Newtons on the surface of the Earth. This is because weight is the force exerted by gravity on an object of mass, and on Earth, gravity accelerates objects at approximately 9.8 m/s^2.
150lbs is 667.2 Newtons at Earth's surface.
268.7N at Earth's surface.
1 pound is equivalent to 4.448 newtons.
On Venus, the acceleration due to gravity is about 8.87 m/s^2. Since weight (in newtons) is equal to mass (in kg) multiplied by acceleration due to gravity, the weight of 1 kg on Venus would be 8.87 newtons.
The weight of 1 kg of mass is about 9.8 Newtons on the surface of the Earth. This is because weight is the force exerted by gravity on an object of mass, and on Earth, gravity accelerates objects at approximately 9.8 m/s^2.
100 lbs is equivalent to approximately 444.82 newtons. This can be calculated by multiplying the weight in pounds by the conversion factor of 4.4482 (1 lb = 4.4482 N).
150lbs is 667.2 Newtons at Earth's surface.
1,000 pounds is about 4448 Newtons at Earth's surface.
52 kg is 510 Newtons at Earth's surface.
The mass of 19.6 Newtons is 1.99 kilograms at the earth's surface.
A 25kg mass at the earth's surface weighs 25 x 9.8 Newtons = 245 Newtons
400 N at the earth's surface is 40.8kg
268.7N at Earth's surface.
1 pound is equivalent to 4.448 newtons.
On Venus, the acceleration due to gravity is about 8.87 m/s^2. Since weight (in newtons) is equal to mass (in kg) multiplied by acceleration due to gravity, the weight of 1 kg on Venus would be 8.87 newtons.
A mass of 1.5 kg weighs 14.7 newtons (3.31 pounds) on the surface of the earth, and 2.4 newtons (8.6 ounces) on the surface of the moon.