No.
Larger things usually have larger volumes.
No, it is not necessarily true that larger things have smaller volume compared to smaller things. The volume of an object is determined by its dimensions and can vary depending on the shape and size of the object. Larger things can have larger volumes than smaller things if their dimensions are proportionally larger.
If the volume of the smaller rectangular box is 27 in3, what is the volume of the larger rectangular box?
Edge of the larger cube = 32 cm Volume of the larger cube = (32 cm)3 = 32768 cm3 Edge of the smaller cube = 4 cm Volume of the smaller cube = (4 cm)3 = 64 cm3 Since the smaller cubes are cut from the larger cube, volume of all of them will be equal to that of the larger cube. ∴ Total number of smaller cubes × Volume of the smaller cube = Volume of the larger cube ⇒ Total number of smaller cubes = Volume of the larger cube ÷ Volume of the smaller cube ⇒ Total number of smaller cubes = 32768 ÷ 64 = 512 Thus, 512 smaller cubes can be cut from the larger one.
It is (S/s)3 where S and s are the lengths of the sides of the larger and smaller cubes, respectively.
The relationship between surface area, volume, and body size in animals is that as an animal's body size increases, its volume increases faster than its surface area. This means that larger animals have a smaller surface area relative to their volume compared to smaller animals. This has implications for things like heat regulation, as larger animals may have a harder time dissipating heat due to their smaller surface area relative to their volume.
No
To find the volume of the smaller cube, we can use the ratio of the volumes of the two cubes. Given that the volume of the larger cube is 250 and the ratio of the volumes is 2:5, we can set up the equation ( \frac{V_{\text{smaller}}}{250} = \frac{2}{5} ). Solving for ( V_{\text{smaller}} ), we get ( V_{\text{smaller}} = 250 \times \frac{2}{5} = 100 ). Therefore, the volume of the smaller cube is 100.
To determine how many smaller boxes can fit in a 28 cubic feet box, you need to know the volume of the smaller boxes. Divide the total volume of the larger box (28 cubic feet) by the volume of one smaller box. The result will give you the maximum number of smaller boxes that can fit, assuming there is no wasted space and the smaller boxes perfectly occupy the volume of the larger box.
Usually not. They can easily expand into a larger volume, or be compressed into a smaller volume.
No, it's much, much larger, by a factor of around a million.
Smaller objects tend to have more density than larger objects because their mass is concentrated in a smaller volume, making their particles more tightly packed together. In contrast, larger objects have their mass distributed over a larger volume, leading to lower density.
To determine if the water from the smaller glass can fit into the larger glass, we first calculate the volume of the water in the smaller glass using the formula for the volume of a cylinder: ( V = \pi r^2 h ). The smaller glass has a volume of approximately ( 8.4 ) cubic inches. The volume of the larger glass is approximately ( 12.6 ) cubic inches. Since the volume of the smaller glass is less than that of the larger glass, all the water can fit into the larger glass without overflowing.