If the same mass is contained in a greater volume, that means that the mass is spread thinner, so there's "less mass in each little piece of volume". That's the same as saying "lower density".
50% or 3 out of 6.
There is insufficient information on the shape of the spinner.
By multiplying its base or height by a number greater than 1 or less than 1
Yes it is.
The cube in the liquid with the highest density will experience the greatest buoyant force. Buoyant force is determined by the density of the fluid displaced by the object, so the denser the liquid, the greater the buoyant force.
Redwood
The probability is zero. No number can be less than 3 and greater than 4.
If the same mass is contained in a greater volume, that means that the mass is spread thinner, so there's "less mass in each little piece of volume". That's the same as saying "lower density".
A graduated cylinder is more precise than a beaker because it has markings for measuring volume with greater accuracy, typically down to 0.1 mL increments. Beakers are less precise as they do not have these precise markings and are used for general mixing and heating.
It depends, the ice cube can have the same amount of water in it but if its flatter or if it has a greater surface area it will melt faster than one with less surface area.
It is 64 because 4*4*4 = 64
50% or 3 out of 6.
A steel cube sinks in water because steel is denser than water, meaning it displaces less water when submerged. The weight of the steel cube is greater than the buoyant force acting on it, causing it to sink.
The relative density of a plastic cube is the ratio of the density of the plastic cube to the density of water. To calculate it, you would divide the density of the plastic cube by the density of water (usually 1 g/cm^3). If the relative density is less than 1, the cube will float in water, and if it's greater than 1, the cube will sink.
There is insufficient information on the shape of the spinner.
An ice cube has less friction than a sponge