because its mass
No. Weight is the measure of how much force a planet pulls an object, that force is determined by the planet's mass and radius, and each planet has a different mass and radius.
no they do not
one gram per weight or same amount of grams as your weight goal
A grain of sand, a small paperclip, or a typical mosquito would each weigh around a milligram.
To convert your weight from pounds to kilograms, divide by 2.2046; 196 pounds is approximately 89 kg. Your weight varies on different planets due to differing gravitational forces. For example, on Mars, you would weigh about 34 kg, while on Jupiter, you would weigh around 211 kg. Each planet's gravity affects your weight significantly.
If you go to another planet, your mass will basically remain the same, but your weight will change, depending on the gravity.For example, if you have a mass of 100 kg. (that's overweight, but it simplifies calculations!), on Earth you would weigh 980 Newton. On the Moon, with less gravity, you would weigh about 160 Newton - but your mass would still be 100 kg.
Each chicken wing will weigh a different amount. On average, a chicken wing should weigh an estimated 10 ounces.
Little Brown Bats typically weigh 5-14g each. If we say each bat weighs 10g , then three hundred thousand would weigh 3000kg
Dumbbells can vary in weight, but typically they are balanced so that each side weighs the same amount.
An average Canadian creates about 1.7 kg of waste each month, so everyday that is about 350 g each day. They basically create the amount of weight that most of them weigh.
It is not appropriate to talk about a planet's "weight". Rather, you talk about its "mass". In our Solar System, the planets with the greatest mass are (in this order): Jupiter, Saturn, Neptune, Uranus.
"New" Weight ChartPlanetMultiply your Earth weight by:Your "new" weightMercury0.4Venus0.9Earth1Moon0.17Mars0.4Jupiter2.5Saturn1.1Uranus0.8Neptune1.2Pluto0.01Sun28Gravity is a universal, natural force that attracts objects to each other. Gravity is the pull toward the center of an object; let's say, of a planet or a moon. When you weigh yourself, you are measuring the amount of gravitational attraction exerted on you by Earth. The Moon has a weaker gravitational attraction than Earth. In fact, the Moon's gravity is only 1/6 of Earth's gravity. So, you would weigh less on the Moon.