Predict the boiling point of water in Salt Lake City (SLC), given the following data: City/Town Boiling Temp. of Water (°C) Longitude / Latitude Altitude (m) Distance From Nearest Ocean (km) Population Water Acidity levels (pH) Air Quality Index (US AQI) Salt Lake City?40.7608° N, 111.8910° W 1288956197,7567.620
Based on the data provided, it is not possible to predict the boiling point of water in Salt Lake City (SLC). The longitude, latitude, altitude, distance from the nearest ocean, population, water acidity levels, and air quality index are not directly related to the boiling point of water. The boiling point of water is mainly dependent on atmospheric pressure, which is not mentioned in the given data.
To predict the boiling point of water in Salt Lake City (SLC), we can consider the following factors:
1. Altitude: Salt Lake City's altitude is approximately 1,280 meters.
2. Distance from the nearest ocean: Salt Lake City is located inland and is quite far from the nearest ocean. However, the exact distance is not provided.
3. Population: The population data you provided, "1288956197,7567.620," appears to be incorrect. Please provide the accurate population data for Salt Lake City.
4. Water Acidity levels (pH): The water acidity levels are not provided.
5. Air Quality Index (US AQI): The air quality index is also not provided.
Therefore, without accurate data for population, water acidity levels, and air quality index, it is difficult to provide a precise prediction of the boiling point of water in Salt Lake City. However, we can estimate that the boiling point of water in Salt Lake City would be slightly lower than the standard boiling point of 100°C at sea level due to its higher altitude.
To predict the boiling point of water in Salt Lake City (SLC), we need to consider various factors such as altitude, distance from the nearest ocean, and other mentioned data. Let's break down the steps:
1. Altitude: Altitude plays a significant role in determining the boiling point of water. As altitude increases, atmospheric pressure decreases, which in turn lowers the boiling point of water. In the given data, the altitude is mentioned as 1288 meters.
2. Distance from the nearest ocean: The distance from the nearest ocean may affect the boiling point of water due to variations in atmospheric pressure caused by proximity to large bodies of water. However, the given data does not mention the distance from the nearest ocean for Salt Lake City.
3. Other factors: The population, water acidity levels (pH), and air quality index (US AQI) mentioned are not directly related to the boiling point of water in Salt Lake City.
Considering only the altitude information available, we can use a common rule of thumb to estimate the boiling point:
For every 150-meter increase in altitude, the boiling point of water decreases by approximately 0.5°C.
Using this rule of thumb, we can estimate the decrease in boiling point by dividing the given altitude (1288 meters) by 150 meters and then multiplying it by 0.5°C:
1288 meters / 150 meters = 8.59
8.59 * 0.5°C = 4.3°C
Therefore, based on the given data, we estimate that the boiling point of water in Salt Lake City (SLC) would be approximately 4.3°C lower than the standard boiling point of water, which is 100°C at sea level. Thus, the estimated boiling point of water in Salt Lake City would be around 95.7°C.