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The cerebrum has many folds or wrinkles which increases the surface without increasing the volume
Dehydration reduces blood volume without changing the number of blood cells, so their concentration increases.
You have two choices: -- Somehow increase or decrease its mass without changing its volume. This is quite difficult. -- Somehow either expand it into a greater volume or squeeze it into a smaller one, without changing its mass in either case. This is easy to do if the object happens to be a sample of a gas.
Neptune. There is a "Great Dark spot" on Neptune in which you could fit two Earths! However this enormous storm seems to surface and then vanish without warning. This has baffled scientists. Not to mention that the wind speed on Neptune is tremendous.
there is no property that can be observed without somehow changing the identity of the object due to Heisenberg's Uncertainty Principle.
The cerebrum has many folds or wrinkles which increases the surface without increasing the volume
You can change the surface of the object itself
because going up a ramp takes less force
Compression reduces the volume without changing the amount of content it has. Pressure is inversely affected by volume. When volume increases, pressure decreases. Likewise, when volume decreases, pressure increases.
Mass has no direct effect on the surface area of an object. You can increase mass without changing anything other property of an object. Volume, Size, and Shape effect surface area.
The number of digits increases - without limit.
It is possible to add heat to a substance without changing its temperature. That happens during melting and boiling. However, I cannot think of a case in which the temperature of a substance increases without heat being added to it, either by radiation, conduction or convection.
costs go down
costs go down
Dehydration reduces blood volume without changing the number of blood cells, so their concentration increases.
does add color to water tell about changing matter without changing its shape
You have two choices: -- Somehow increase or decrease its mass without changing its volume. This is quite difficult. -- Somehow either expand it into a greater volume or squeeze it into a smaller one, without changing its mass in either case. This is easy to do if the object happens to be a sample of a gas.