0. They don't make any sounds. :P
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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?
2/5 or 2 out of 5 (40% chance)
Four. The answer will be 12 to 6 which reduced is 2 to 1.
There is no possible solution since "you" would have to have a negative number at the start.
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.
You fill your displacement cup with water until the hole is finished dripping. Then, you're going to add the four marbles that you asked for. But before you add the marbles inside the displacement cup, you must place a graduated cylinder under the hole in the displacement cup so you can find the volume of a marble. When you discover your results, divide how much water is in the graduated cylinder by the number of marbles you inserted. In this case, it would four.
If the density of one marble is 2.5 g/cm³, then the density of four marbles would be the same, as density is an intrinsic property of the material. So, the density of four marbles would also be 2.5 g/cm³.
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.
What is the volume of 16 one rupees coins.... Ml
It is 1248/57120 = 13/595 = 0.0218 approx.
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.
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?
Graduated Cylinder - Marbles
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.
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.
4:10 or 2:5