You may have heard the term 'peg' if you are around people who drink alcohol or frequent places where alcohol is served. Many individuals find a single peg sufficient, while others prefer what is known as a 'Patiala peg'. But why exactly is alcohol measured in pegs, and what is the reason behind it? Where is 'Peg' Used? It may surprise you that the term 'peg' is not used worldwide; rather, it is unique to India and Nepal. Here, it serves as a standard unit for measuring alcohol servings. For most Indians, a 'small' or 'regular' peg denotes 30 milliliters of alcohol, while a 'large' peg is 60 milliliters. Some also opt for a 'Patiala peg', which is typically around 90 milliliters. Where Did the Term 'Peg' Originate? According to available information, the term 'peg' is derived from the Danish unit of measurement called 'paegl'. In India, it has been established as a recognized unit for measuring alcohol servings. Earlier, alcohol could also be served in quantities like 25 milliliters (small) and 50 milliliters (large), but the shift to 30 milliliters and 60 milliliters has an interesting rationale. What is the Standard? There are several standards for dividing alcohol into pegs. The 30 milliliters and 60 milliliters are based on mathematical principles aimed at facilitating easier consumption and liver processing. For most drinkers, 30 milliliters is considered an ideal quantity as it can be consumed gradually, allowing the body to metabolize it effectively. In conclusion, the term 'peg' in the context of measuring alcohol in India and Nepal has a unique historical and practical significance. It not only denotes a standardized unit but also reflects cultural norms and drinking habits prevalent in these regions. Whether one prefers a small peg or opts for a Patiala peg, the term remains deeply embedded in local drinking culture. Motorola users are in for a treat! This 5G phone has Android 14, will you get it? Flipkart Prepares for Major Launch of 'Flipkart Minutes' Service NASA to Train ISRO Astronauts for ISS Mission, Enhancing Space Collaboration