48 newtons (10.8 pounds)
(rounded)
Well, darling, an object equal to the weight of 80 grams would be... drumroll... an object that weighs 80 grams! It's as simple as that, honey. Just plop 80 grams of anything on a scale, and voilà, you've got yourself an object that weighs 80 grams.
density = mass ÷ volume = 30 g ÷ 10 cm3 = 3 g/cm3
Density = Mass/Volume = 25/30 g/ml = 0.833... g/ml
A nonilion is a number with 30 digits.
a 30 ton weight
The weight on the moon would be approximately 1/6th of the weight on Earth, so an object that weighs 30 newtons on Earth would weigh about 5 newtons on the moon.
The object's force on the moon's surface is 294N
To support an object with a mass of 5 kg, you need to support it with a force equal to its weight. 30 N won't be enough in this case.
Well honey, if an object weighs 30 N on the moon, it would weigh about 180 N on Earth. That's because the gravitational pull on Earth is about six times stronger than on the moon. So, there you have it, simple math for ya!
Objects weigh less on the moon than on Earth because the moon has less mass and gravity than Earth. The force of gravity between an object and the moon is weaker compared to the force between an object and Earth, resulting in objects weighing less on the moon.
The force of gravity on the moon is about 1/6th that on Earth, so the force of gravity on a 180 kg object on the moon would be 1/6th of its weight on Earth. Therefore, the force of gravity on the object would be about 180 kg * 1/6 = 30 kg.
To find the force of gravity that is acting on the moon you have to take the mass of the object and multiply it by the moon's gravity. It would be 180 kg times 1.63 m/s squared. Which equals 293.4 Newtons.
Your mass remains constant regardless of your location, whether on Earth or the Moon, because mass is a measure of the amount of matter in your body. However, your weight changes because weight is the force exerted by gravity on that mass. The Moon's gravitational pull is about 1/6th that of Earth's, so you would weigh significantly less on the Moon, even though your mass stays the same. For example, if you weigh 180 pounds on Earth, you would weigh only about 30 pounds on the Moon.
The weight of a man on the moon would be approximately 1/6th of their weight on Earth due to the lower gravity on the lunar surface. For example, if a man weighs 180 pounds on Earth, his weight on the moon would be about 30 pounds.
The acceleration of gravity on the surface of the moon is 1.6 m/sec2.Force of gravity on a mass = Weight = (mass) x (g) = (180 x 1.6) = 288 newtons.(That's about 16.3% of the force on it at the earth's surface.)The formula that I used was:(F) Force of gravity on a mass=(mass) x (g), where mass is the objects weight and g stands for gravity acceleration.F= (180 kg) x (9.8 m/s2)F= 1764 Nthen F= 1764N/6 ( divide by 6 because the gravity acceleration on the moon is about 1/6th that of earth)F= 294N(If you were to take the gravity acceleration on earth (9.8 m/sec2) and divide by 6 you get 1.633333 ect.)
30 kilogram mass ==> 294 newtons (66.1 pounds) on earth 30 kilogram mass ==> 48 newtons (10.8 pounds) on the moon
The mass of an object is a measure of the amount of matter it contains. Therefore, the heaviest object has a larger mass than the lightest object because it contains more matter. This leads to a greater gravitational pull on the heavier object compared to the lighter object.