The larger the surface area to volume ratio of an organism, the more space there is over the surface for heat to be lost to the atmosphere, therefore the smaller the organism, the reduced amount of heat loss.
This comes in useful for animals like the Polar Bear and the Arctic Wolf and Fox because they need to have a very low surface area compared to their volume. This is why Polar Bears and Penguins look pudgy and round and why Arctic foxes and wolves are very small.DO NOT COPY AND PASTE THIS!
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yes heat loss is affected by diameter, circumference and surface area. Heat loss depends on the surface area : volume ratio.......the larger this is the more heat is lost if a cylinder having the same volume but a different surface area...(therefre radius and circumference is different)........the cylinder having the larger surface area will loose heat fastest
Heat loss of water: The surface area effects the the rate of heat loss because the rate of heat loss increases if the surface are is higher. How: The water is spread out into a bigger space meaning the
the larger the surface area you have, to more heat that you are going to lose.
Increasing the Surface Area increases the heat loss. You will find a nice example in the related question link below.
Factors that affect heat loss by infrared radiation include surface temperature (warmer surfaces emit more radiation), emissivity (a measure of how efficiently a surface emits radiation), surface area, and the temperature difference between the object and its surroundings. Additionally, factors such as the presence of insulation or reflective surfaces can also impact heat loss via radiation.
Yes, the surface area of a container can affect water loss due to evaporation. A larger surface area provides more opportunities for water molecules to escape into the air, leading to increased evaporation rates. Conversely, a smaller surface area can help reduce water loss.
colour, shape, surface area
The volume of a liquid affects heat loss because it determines the surface area exposed to the surrounding environment. A larger volume means a smaller surface area-to-volume ratio, resulting in slower heat loss. Conversely, a smaller volume has a larger surface area-to-volume ratio, leading to faster heat loss.
The bigger surface area to volume, the quicker it will lose heat, as it has a bigger surface where the heat can rise and travel out from. If the volume is the same but the surface area is smaller, heat will stay in for longer as there is only a small area for the heat to escape from, meaning it has to go little by little.
Well, If the surface area is small, say 1 m2 . And the temperature is 1000C You lose only 2% of your heat. But if the surface area is big/largel, say 10 m2 . And the temperature is still 1000C You lose only 20% of your heat. So the bigger your surface area the bigger your heat loss is. Warning: It is a example, the calculation is not correct!
The bigger surface area to volume, the quicker it will lose heat, as it has a bigger surface where the heat can rise and travel out from. If the volume is the same but the surface area is smaller, heat will stay in for longer as there is only a small area for the heat to escape from, meaning it has to go little by little. I LOVE MICHAEL JACKSON
A larger surface area allows for more heat to be transferred to the surrounding environment, resulting in faster cooling. This is because heat loss occurs through the surface of an object, so more surface area means more opportunities for heat to escape. Conversely, objects with smaller surface areas retain heat for longer periods of time.