Question

Which of the following is stated correctly using metric abbreviations and rules? Gentamicin \(1^{1} / 2 \mathrm{~mL}\), gentamicin \(1.5 \mathrm{ml}\), gentamicin \(1.5 \mathrm{~mL}\), gentamicin \(11 / 2 \mathrm{ml}\) ______

Short answer

Gentamicin \(1.5 \, \text{mL}\) is correct.

Step-by-step solution

Understand Metric Abbreviations

Metric abbreviations must correctly use the unit symbols as per standard convention. For volume, milliliters are abbreviated as 'mL' and not 'ml'. Moreover, unit symbols are case-sensitive.

Consider the Formatting and Accuracy

The number should correctly precede the unit. The expression should not have a space between the number and the abbreviation unless stated otherwise by specific standards, but generally, there is a space: e.g., '1.5 mL'.

Evaluate Each Option

- 'Gentamicin \(1^{1}/2 \, \text{mL}\)' is incorrect due to the improper symbol for fractions and incorrect spacing.- 'Gentamicin 1.5 ml' is incorrect because 'ml' should be capitalized as 'mL'.- 'Gentamicin \(1.5 \, \text{mL}\)' is correct with a period and space properly formatted.- 'Gentamicin \(11/2 \, \text{ml}\)' is incorrect due to using lowercase 'ml' and improper fraction representation.

Key concepts

Metric Abbreviations

In the metric system, using correct abbreviations is crucial for proper communication and understanding. These abbreviations help in maintaining consistency across various fields such as science, medicine, and everyday life. For instance, when referring to volume in the metric system, milliliters are denoted as 'mL'. It's important to note that 'mL' is the standard abbreviation, with the 'm' being lowercase and the 'L' uppercase. This standardization reduces confusion, and ensures everyone is on the same page.
A fun fact to remember is that the uppercase 'L' in 'mL' is used to avoid confusion with the number one when handwritten. Remembering these conventions will help you accurately convey measurements.

Unit Symbols

Unit symbols are shorthand representations for measurements. They simplify communication by providing a universally recognized symbol for every unit in the metric system. Each unit has a predefined symbol, like 'mL' for milliliters.
One key aspect of unit symbols is their specificity. Each symbol stands for exactly one thing, which minimizes guesswork or misconceptions. It is essential to use the correct symbol, as misuse could lead to error or misunderstanding. For example, in measurements of volume, using 'ml' instead of 'mL' could be considered incorrect due to the standards in place.

Case Sensitivity

Case sensitivity is another important factor to consider when using unit symbols. In the metric system, the correct application of uppercase and lowercase letters is crucial. Such sensibility ensures that each symbol is accurate and unambiguous.
For example, milliliters are abbreviated as 'mL', not 'ml'. The uppercase 'L' indicates the unit symbol, showing its significance. Mistaking this with a lowercase letter, 'ml', could mislead or distort the meaning. Keeping these distinctions in mind is key to mastering the use of metric unit symbols.

Volume Measurement

Volume measurement within the metric system is commonly performed using the liter and its subdivisions, such as milliliters. These measurements are widely used due to their precision and ease of conversion between units.
When conveying measurements of volume, it's important to follow standard conventions closely. This includes accurately rendering abbreviations like 'mL'. Measurements must include a number followed by a space, and then its unit, like '1.5 mL'. This ensures clarity in communication and avoids mistakes in interpreting these quantities in different scenarios, such as in lab work, cooking, or medical prescriptions.