A human liver typically weighs twice as much as a human brain.
Gravity is determined by the mass of an object. An object with twice the mass will have twice the gravitational pull. Since the moon is much smaller (has a lot less mass) than earth, the gravity on the moon is less than on earth.
To accelerate an object twice as fast, you would need to exert twice the force. This is because force is directly proportional to acceleration, as defined by Newton's second law, F=ma. So if you double the acceleration, you must double the force.
If an object weighs 10 pounds on Earth and 9 pounds on Venus, the weight difference is 1 pound. Therefore, an object that weighs 90 pounds on Earth would weigh 81 pounds on Venus (90 pounds - 1 pound for each 10-pound increment).
Something that weighs 20 on Earth would weigh approximately 21.2 on Saturn. This is due to the different gravitational pull on Saturn compared to Earth.
A coconut typically weighs around twice as much as an apple.
A human liver typically weighs twice as much as a human brain.
The first object also has twice as much inertia. This means it requires twice as much force to accelerate or decelerate compared to the second object.
The weight of an object is twice as much when it has twice the mass compared to another object. Weight is proportional to mass, as given by the equation: weight = mass x acceleration due to gravity.
How much it weighs.
How much it weighs.
The term used to describe how much an object weighs is "mass." Weight is the force exerted on an object due to gravity, which is dependent on the object's mass and the acceleration due to gravity.
An object on the moon's surface weighs 16.55% as much as the same object weighs when it's on the Earth's surface. That's about 1/6 as much.
Volume "tells" us how much an object can be filled with or how much an object can hold.
Gravity.
An object with twice the mass of another will weigh twice as much when both objects are on the same planet or celestial body with a constant gravitational acceleration. Weight is directly proportional to mass when the gravitational acceleration remains constant.
This answer depends on where you are shipping it (domestic or international) and how much it weighs.