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a small bowl as it can heat up quicker than a larger bowl and with a big bowl when the heat comes in it is easier for it to come out?
The answer depends on the heat source. If none of the heat is wasted then it takes exactly the same length of time. For the pot to be larger one would assume that the base takes up a greater area than a small pot. The small pot on a large gas burner would waste energy because heat would rise up the sides of the pot and be wasted whereas the larger pot would absorb more of the heat. Using an inductive hob the time taken to heat up a given amount of water in small and large pots would be relatively equal.
Yes, it does. The reason is that there is a larger surface area for the large pot of water than the small pot of water -*-*princeszbitez*-*-
Larger organisms are required to consume and give off lots energy to survive. But, smaller organisms do not consume and release as much energy than larger ones. This energy, when given off, is represented by heat. Therefore, larger organisms produce more heat than smaller organisms, and this extra heat is required in cold climates.
the larger the surface area you have, to more heat that you are going to lose.
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Small Balloon because it is smaller the heat is compacted and closer so the smaller balloon has more heat.
That really depends on the pumpkin. Generally, larger pumpkins will have more creases. Larger pumpkins have more surface area, and are more likely to have a larger amound of creases.
You will need a larger garage.
Yes, the larger the surface area to volume ration the more the heat loss is, therefore, they've got smaller surface area to volume ration.
It takes longer to boil because there is more of it that therefor takes longer to heat up. This is because a larger volume of liquid is needed to be heated to the same temperature as a small volume of liquid.
That a given volume of water will store a larger amount of heat energy (per degree temperature rise) than will most other substances.