Oh, dude, that's an easy one! So, 1 kilogram is like 1000 grams, right? And if you have 200g objects, you just divide 1000g by 200g, which gives you 5 objects. So, like, you'd need 5 of those 200g objects to have the same mass as 1kg. Easy peasy!
The density of the object is 4 g/cm3. To calculate density, you divide the mass by the volume. In this case, 200g / 50 cm3 = 4 g/cm3.
All objects with mass have gravity, as gravity is a fundamental force that exists between all objects with mass. However, the strength of gravity can vary depending on the mass of the object and the distance between objects.
Yes, gravity is a fundamental force of nature that affects objects with mass. Objects with mass are attracted to each other due to gravity, creating phenomena such as planetary motion and the acceleration of falling objects.
Well, the formula for the gravitational force between any two objects says that the force is proportional to the product of their masses, so we suppose that if one of the objects had no mass, the product would be zero, and the force would also have to be zero. Tell you what: You find us an object without mass, and we can check it out together.
Two objects with the same mass would have the same amount of matter, meaning they would weigh the same when measured.
Big bottoms
To find out how many 200 g objects would have the same mass as 1 kilogram, you need to first convert 1 kilogram to grams. Since 1 kilogram is equal to 1000 grams, you would divide 1000 grams by 200 grams per object. This calculation shows that five 200 g objects would have the same mass as 1 kilogram.
Mass of the object is 200g + 50g + 6.8g = 256.8g
To find the answer to 200g by 100cm³, you can interpret this as calculating the density. Density is defined as mass divided by volume. Therefore, 200g divided by 100cm³ equals 2g/cm³.
apple watch
Density = 7.27
The density of the object is 4 g/cm3. To calculate density, you divide the mass by the volume. In this case, 200g / 50 cm3 = 4 g/cm3.
if a 2.25 billion year old rock had a mass of 200g of 238 uranium determine the mass of 238 uranium that would remain today?
Around 200g are in a cup of brown sugar, but this amount varies quite a lot with the moisture level and the amount that the sugar is packed into the cup.
yes nab
That depends what you include under the term "objects". In general, those would be subatomic particles. Many of them are (in a sense) considered to have no volume. Some of them, such as photons and gravitons, have zero mass (rest mass; they will have some mass due to their energy).
200 g is a mass, not a weight 0.2 kg = 200 g