In Durban, altitude generally has a minimal influence on temperature due to the city's low elevation and proximity to the coast. The moderating effect of the ocean helps keep temperatures relatively stable throughout the year. Therefore, altitude is not a significant factor in determining temperature in Durban.
At standard temperature.
Temperature will decrease as the altitude increases at all levels due to the thinning of atmospheric gasses.
The six temperature controls that influence climate and weather patterns are altitude, latitude, proximity to water, ocean currents, vegetation, and prevailing winds. Altitude affects temperature as higher elevations generally experience cooler conditions. Latitude determines the amount of solar energy received, with equatorial regions being warmer than polar areas. Proximity to water moderates temperature fluctuations, while ocean currents can redistribute heat across different regions, and vegetation can influence local climates by affecting humidity and temperature.
Latitude and altitude are both measurements used to determine location, but they refer to different concepts. Latitude measures the distance north or south of the equator, expressed in degrees, while altitude refers to the height of a location above sea level, usually measured in meters or feet. Both can influence climate and weather patterns, but latitude primarily affects temperature and daylight, whereas altitude can impact air pressure and temperature. Overall, latitude is a horizontal measurement, while altitude is vertical.
The altitude cannot be determined based solely on temperature and relative humidity. Altitude is primarily based on air pressure, not temperature and humidity. Additional information, such as air pressure or location, would be needed to accurately determine altitude.
Boiling point is dependent on air pressure. Air pressure is dependent on altitude. Durban is coastal, almost sea level. Johannesburg is inland, quite a bit higher. High altitude = low air pressure = low boiling point.
Durban has an average altitude of around 30 meters (98 feet) above sea level.
The main factors that influence temperature are latitude, altitude, distance from large bodies of water, and ocean currents.
As altitude increases, temperature generally decreases by about 6.5 degrees Celsius per kilometer due to the decrease in air pressure with altitude. This is known as the adiabatic lapse rate. However, local weather patterns and geographical features can also influence temperature changes with altitude.
Both cities are located at the coast
Pressure decreases with increasing altitude due to the decrease in the density of air molecules as altitude increases. Factors that influence this relationship include temperature, humidity, and the presence of weather systems such as high or low pressure systems.
The higher the altitude the lower the temperature.
how does lining in high altitude influence tidal volume
In the exosphere, temperature increases with altitude. This is because the particles in the exosphere are far apart, so there is no transfer of heat through conduction or convection. Instead, the few particles present gain energy from solar radiation, causing an increase in temperature as altitude increases.
The stratosphere's temperature increases as altitude increases. The mesosphere's temperature decreases as it's altitude increases. This is helpful
Yes, air pressure decreases with altitude because the atmosphere becomes less dense. In contrast, temperature changes can vary with altitude; typically, temperature decreases with altitude, but there are atmospheric layers where temperature may increase, known as inversions.
Mike Farris has written: 'The altitude experience' -- subject(s): Altitude, Influence of, Health aspects, Health aspects of Mountaineering, Influence of Altitude, Mountaineering