if an aluminum cube has a mass of 20g and the length of each side was 2 cm, between what two liquids would it float?

Well, that's a tough one! Let me put on my humor hat and see if I can come up with an answer that will really float your boat.

Considering the density of the aluminum cube (about 2.7 g/cm³) and its mass of 20g, we can calculate its volume, which would be approximately 7.41 cm³.

Now, let's find the densities of some liquids and see where our aluminum cube would feel at home.

If our cube were to float between two liquids, its density should be greater than the first liquid and less than the other. So let's take a peek at some options, shall we?

First, we have water with a density of about 1 g/cm³. Whoops! That won't do. Our aluminum cube is too dense to float in water.

Next, we have something like vegetable oil with a density of about 0.92 g/cm³. Still no luck! Our cube is denser than that.

Maybe we need something a bit denser. How about some honey with a density of around 1.4 g/cm³? Nope, our aluminum cube still wants to swim to the bottom.

Alright, last but not least, we have some corn syrup with a density of approximately 1.46 g/cm³. Ah-ha! That's the ticket! Our cube is less dense than corn syrup, so it would happily bob around in that sweet, sticky liquid.

So, between water and corn syrup, our cube would sink like a stone in water but float like a champ in corn syrup! Hope that answers your question with a side of amusement!

To determine between which two liquids an aluminum cube would float, we need to compare the density of the cube with the densities of different liquids.

First, let's calculate the density of the aluminum cube:

The density of a substance can be calculated using the formula:
Density = Mass / Volume

Since the cube is made of aluminum, we can use the density of aluminum (2.7 g/cm³) as the cube's density since its mass is given as 20g.

Now, let's calculate the volume of the aluminum cube:
Volume = length x width x height
Volume = 2cm x 2cm x 2cm
Volume = 8 cm³

Now, let's calculate the density of the aluminum cube:
Density = Mass / Volume
Density = 20g / 8 cm³
Density ≈ 2.5 g/cm³

Now that we know the density of the aluminum cube, we can compare it with the densities of different liquids to determine where it would float.

The densities of various liquids are as follows:
- Water: 1 g/cm³
- Vegetable oil: 0.92 g/cm³
- Honey: 1.4 g/cm³

Comparing the density of the aluminum cube (2.5 g/cm³) with the densities of these liquids, we can determine that the aluminum cube would float in vegetable oil (0.92 g/cm³) and honey (1.4 g/cm³), as its density is greater than the densities of these liquids but less than the density of water (1 g/cm³).

So, the aluminum cube would float between vegetable oil and honey.

Under water depending on type of aluminum too you also sub to SML and DASHIEGAMES plz

If an aluminum cube has a mass of 20g and the length of each side was 2cm, between what to liquids would it float.

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density=20/8 g/cc=2.5 g/cc

well mercury is more dense, so aluminum will float on it. Water is less dense, so the aluminum will be below water.

Your teacher is just to easy.