well it all starts with four marbles..... for mL you would do the following:
for example lets use a chalkboard eraser. you would find its volume (for say 135cm3). then you would add how much the marble weighs which may be 2.26796 mL. but lets round that to 2 mL. now you times that by four which is? 8 mL!! now you add 8 mL to 135 mL which equals...................................................................................................................................................................................................
143 mL!! there you go but just to let you know if you need the answers to the Metric mania worksheet go to this website:
www.sciencespot.net
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.
Marbles float due to their low density relative to water, while ships float because of their shape and the principle of buoyancy. The shape of ships allows them to displace a large volume of water, which creates an upward buoyant force that supports their 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.
Well, darling, to calculate the volume of a sample of marbles, you can use the formula for the volume of a sphere, which is 4/3 * π * r^3, where r is the radius of the marble. Measure the diameter of the marble, divide it by 2 to get the radius, plug it into the formula, and voila! You've got the volume of those little round troublemakers.
The number of marbles that can fit into an empty bag would depend on the size of the marbles and the size of the bag. To calculate the maximum number of marbles that can fit, you would need to determine the volume of the bag and the volume of each marble. By dividing the volume of the bag by the volume of a single marble, you can find the maximum number of marbles that can fit into the bag.
If the marbles are identical, the volume is the same. If you want, you can use different units and it looks like the volume is different.
Well, they are spheres, right? Volume of a sphere is 4/3pi r(to the 3rd). So, just multiply that by 6 and there ya go.
The ratios are: red : green = 2 : 3 = (2×3) : (3×3) = 6 : 9 green : blue = 9 : 4 → ratio of red : green : blue = 6 : 9 : 4 There are 6 + 9 + 4 = 19 parts 76 marbles ÷ 19 parts = 4 marbles per part → red: 6 parts = 6 × 4 marbles per part = 24 red marbles → green: 9 parts = 9 × 4 marbles per part = 36 green marbles → blue: 4 parts = 4 × 4 marbles per part = 16 blue marbles To check: red + green + blue = 24 marbles + 36 marbles + 16 marbles = 76 marbles in the bag.
What is the volume of 16 one rupees coins.... Ml
Get a measuring jug that will hold the marbles easily. Half fill the measuring jug with water. Note the volume reading on the measuring Jug scale (measurement A). Add the marbles. Note the new water level reading on the measuring jug scale (measurement B).Subtract measurement A from measurement B, the answer is the volume of the marbles.
45 __ 91
Oh, dude, it's simple math. You just need to calculate the volume of the room and the volume of one marble, then divide the room's volume by the marble's volume. Like, it's not rocket science or anything. Just don't lose your marbles in the process, okay?
The ratio of 4 blue marbles to 6 white marbles can be said as 4:6, 4 to 6, or 4/6. This can then be simplified to 2:3 by a factor of 2.
Pouring water into a jar of marbles will displace the marbles and fill the empty spaces between them. This demonstrates the principle of displacement, where the volume of water poured into the jar equals the volume of the marbles that are moved aside to make space for the water.
It is: 17 to 4