Can you convert kg to grams

For example, if you're converting from kilograms to grams, the kilograms should cancel out. Your final answer should ONLY have grams. The reverse is also true. If you convert from grams to kilograms, the grams should cancel out.

This video by larryschmidt goes through a more complicated conversion of units. Normally, we've been seeing problems where we had to convert one unit. But what if there are multiple conversions to be done? A simple way to do this is using a conversion table. Let's look at an example and work through it to see how it's done.

These are unit rates , because the units are a ratio of two other units. Each of these unit rates are an amount of mass per unit of volume. The first conversion we want to make is turning kilograms into grams. Actually we can do the steps in multiple orders, but we'll show you how it works this way. In the next two boxes, write down this conversion. Make sure kg is in the bottom box so that it can cancel out with the one above.

We'll do all the cancellations at the end. Next, we want to convert from L to mL. We write this conversion in the next two boxes. Make sure that L is in the top box so that it can cancel with the one in the bottom.

Finally, write our answer as a single fraction. The kilogram or kilogramme symbol: kg is the SI base unit of mass. It is defined as being equal to the mass of the international prototype of the kilogram. The gram is a unit of mass. A gram is defined as one of the SI base unit the kilogram which itself is defined as being equal to the mass of a physical prototype preserved by the International Bureau of Weights and Measures.

This is a very easy to use kilograms to grams converter. This is at least in part due to the inconsistencies and lack of coherence that can arise through use of centimeter-gram-second systems, such as those between the systems of electrostatic and electromagnetic units.

The kilogram was originally defined as the mass of one liter of water at its freezing point in , but was eventually re-defined, since measuring the mass of a volume of water was imprecise and cumbersome.

A new definition of the kilogram was introduced in based on Planck's constant and changes to the definition of the second. Prior to the current definition, the kilogram was defined as being equal to the mass of a physical prototype, a cylinder made of a platinum-iridium alloy, which was an imperfect measure. This is evidenced by the fact that the mass of the original prototype for the kilogram now weighs 50 micrograms less than other copies of the standard kilogram.

Current use: As a base unit of SI, the kilogram is used globally in nearly all fields and applications, with the exception of countries like the United States, where the kilogram is used in many areas, at least to some extent such as science, industry, government, and the military but typically not in everyday applications.