The annual average would probably be unchanged. The summer average would be a little lower, and the winter average a little higher, with little net change.
increase in summer and decrease in winter
Crossover temperature can be considered a bit of faux-gap in temperature. It provides a gap between energies instead of an easily definable emerging temperature.
Water could be made to boil at 105 degrees C instead of 100 degrees C by adding a solute to the water. You can also raise the boiling point of water by moving to a higher elevation or putting it under higher pressure.
Carbon is a solid liquid instead of a gas at room temperature.
Global Warming refers to the rise in temperature. The earth is warming, and this global warming is causing climate change. People use the term Climate Change to mean all the changes that are predicted, caused by the world's rise in temperature. The rise in average temperature will cause many varied climate changes, perhaps including reduced temperature in some areas, glaciers melting, sea levels rising, increased number of natural disasters, more severe weather events, and longer droughts.
16 degrees Fahrenheit = - 9 degrees Centrigrade. To convert F to C, subtract 32 and multiply by 4/9ths. For a 'rule of thumb' conversion, subtract 30 and then divide by 2. (this gives -7 instead of -8.89, but I suspect this is good enough for most purposes.)
because of its hard shell
Usually it would be degrees Fahrenheit (°F).
No they are not equal.
The temperature in Fahrenheit is no SI unit. Use kelvin or degrees Celsius instead.
Kelvin all measurements have to be recorded in kelvin instead of degrees Celsius because if you ever have to double the temperature and the temperature happens to be a negative number it will only become more negative and therefore not really exist so the all measurements of the average kinetic energy have to be in Kelvin.
No. The sun's core has a temperature of tens of millions of degrees, far hotter than any liquid. Instead it is made of highly compressed plasma.
A newborn baby usually has a normal temperature of less than 97F. Usually new born babies body temperature is not always regulated. Sometime when they are ill the temperature goes down instead of up. Hence if you find the baby temperature little awkward then call the doctor immediately.
Yes, actually the salt makes your water boil at a higher temperature. So instead of your water boiling at 100 degrees Celsius it boils at 110 degrees Celsius. So when you put your noodles in they cook faster. :)
In most cases a 25 degree temperature difference is within the error range of the oven's temperatures, so lowering the temperature from 350 degrees to 325 degrees should not add that much time to the cooking time. Check the cake as you normally would and adjust the time a few more minutes until it is done.
No, certainly not.Temperature is a measure of the average kinetic energy of the particles in a body. The temperature of a thing is how strongly the little bits of that thing are shaking about. If they shake hard enough, meaning that the thing is hot enough, they shake the bits apart, so that the thing melts or evaporates.If I take something hot and put it against something cold, then the shaking of the molecules of the hot matter jostle the molecules of the cold matter, passing on some of their energy. To us that is a flow of heat energy from the hot matter to the cold.Get that straight! It is a flow of energy, not of temperature, and the temperature is not the flow!But, you say, suppose I take 10 grams of water at 95 degrees and put them against 10 grams of water at 35 degrees, I will get 20 grams at 65 degrees, right? How does that differ from a flow of temperature?Temperature does not flow; heat does. I chose that example carefully to make it look like a flow of temperature. Think of a different example: suppose that we put 10 grams of mercury at 95 degrees against 10 grams of water at 35 degrees; then we would get the whole lot at just about 37 degrees instead of 65 degrees, because it takes about 30 times as much heat to increase the temperature of one gram of water by one degree as it takes to heat one gram of mercury by one degree.Now, what happened to that "flow of temperature"?Get the picture?Heat will flow until the temperatures are the same all right, but the heat still is the only thing that flows.But, you say, isn't the temperature itself the flow?No, because if I have water at 95 degrees and I don't have it touching anything at a different temperature, then there is no flow of heat (or energy, if you like; same thing in our examples) and yet the temperature stays at 95. If the temperature were the flow, then zero flow would mean zero temperature, right? And do we get zero temperature? Not a bit of it; we get 95 degrees!Is this helping you get it straight? If not, ask again.
Aluminum (or aluminium) doesn't solidify like liquids freezing into solids. Instead, it undergoes a phase change from a solid to a liquid when it reaches its melting point. Aluminum's melting point is around 660.32 degrees Celsius (1220.58 degrees Fahrenheit). This indicates that when exposed to temperatures above 660.32 degrees Celsius, solid aluminum transitions into a liquid state.
Celsius or KelvinThe metric unit for temperature is the Kelvin (symbol: K), which is defined as 1/273.16 of the temperature difference between absolute zero and the triple point of water. The Kelvin (not degrees Kelvin) is mainly used in scientific fields.The degree Celsius (symbol: °C, formerly known as degrees centigrade) is of the same magnitude, but the zero is at 273.15 K. It is more commonly used than Kelvin for everyday usage, for example in weather forecasts and room temperature. It is not the official metric unit of temperature, but is accepted for use with the metric system due its close links with the Kelvin.Read more: What_is_the_metric_unit_for_temperature