The density of 10 marbles would depend on the material the marbles are made of. Generally, marbles have a density ranging from 2.5 to 2.75 grams per cubic centimeter. So, the total density of 10 marbles would be the density of one marble multiplied by 10.
The density of one marble is the same as the density of six marbles when compared in terms of mass per unit volume. Since the density remains constant regardless of the number of marbles, the ratio of their densities is 1:6.
Marbles are denser than water, which means they have more mass per unit of volume than water. This difference in density causes marbles to sink in water instead of float. Objects float in water when their density is less than that of water.
Marbles are denser than water, so they usually sink when placed in water. However, there are some types of marbles, suchjson as glass marbles filled with air, that may float depending on their density and design.
Lead and marbles sink in water because their density is greater than that of water. Objects with a higher density than water will sink, while objects with a lower density will float. This is due to the principle of buoyancy, which states that an object will float if it displaces an amount of water equal to its own weight.
Solid density is just that - the weight of a fixed volume of the solid material. But if the material is not solid, that is, if it is divided into particles or grains, or "chunks" or the like, then they will not "pack down" and be as dense as a solid volume of the material. Let's try an example. If we have a shoe box full of glass marbles, it will have a given weight. And, if we have the dimensions of the box, we can take the weight and the volume of the box and make a density calculation. But the box won't actually be "solid glass" as it would if we could ignore the "packing" of the spheres. The marbles end up leaving space between and around them when we put them in the box. They're round, and they can't take up all the space in the box. They simply can't. Because they can't take up all the volume in the box, it gives rise to what we call bulk density. If we take the the density of the glass from which the marbles are made, we could find the weight of a volume of that glass that was equal to the volume of the shoe box. The weight of the glass in a shoe box that is "solid glass" will be higher than that of the weight of the marbles in a full box. And that's because it is based on our filling the box with marbles and not being able to make the spaces between the marbles disappear. Got links if you want 'em.
10 ?
Density is mass per unit volume. More marbles is more mass, but will be more volume as well. If the marbles are all the same, any number of them will have the same density, which is 2.5 grams/cm3. This is a "thinking" problem rather than a "calculation" problem.
The density of one marble is the same as the density of six marbles when compared in terms of mass per unit volume. Since the density remains constant regardless of the number of marbles, the ratio of their densities is 1:6.
To find the density of marbles, you would measure the mass of a certain number of marbles using a balance scale, then calculate the volume by either measuring the dimensions and using a formula for the shape of the marbles or by displacement method with water. Finally, divide the mass by the volume to determine the density of the marbles.
A quarter of 40 marbles is equal to 10 marbles. To find a quarter of a number, you divide the number by 4. In this case, 40 divided by 4 equals 10. So, a quarter of 40 marbles is 10 marbles.
Marbles have the greatest density among the listed items. Dice and paper clips have similar densities, while sand generally has a lower density due to its loose and irregular arrangement of particles.
20% of 50 marbles is 1 fifth of the marbles in the bag. so 50 marbles divided by 5 =10 blue marbles
a+b=23 b=a+3 a+b a+(a+3)=23 a+a=23-3 2a=20 a=10 green marbles=10 blue marbles =23-10 =13
He will have 13 blue marbles and 10 green marbles.
He has 10 green marbles.
10 Green marbles, 13 Blue marbles.
That depends on the density of the ointment. You did not provide enough information to answer the question. It's like asking "How much room does 10 pounds of stuff take up?" Well... are we talking cotton balls or marbles? 10 lbs of cotton balls takes up way more room than 10 lbs of marbles. You have to provide the density of the ointment in grams per cc. Then the answer can be calculated.