Answer:
(iodine?) heptabromide
Explanation:
Not sure what element Ig is but use that name and then heptabromide.
The volume of the gas sample would be 477.78 mL.
The student is asking about the change in volume of a gas sample when the pressure is increased. This can be solved using Boyle's law, which states that the pressure and volume of a gas are inversely proportional at constant temperature. The equation for Boyle's law is: P1 * V1 = P2 * V2
We are given the initial conditions: T1 = 25.2°C, V1 = 536 mL, and P1 = 0.838 atm. We need to find V2 when P2 = 0.937 atm. Using the Boyle's law equation, the volume can be calculated as: V2 = (P1 * V1) / P2
Plugging in the values, we get: V2 = (0.838 atm * 536 mL) / 0.937 atm = 477.78 mL
Therefore, the volume of the gas sample would be 477.78 mL (Option A) when the pressure is increased to 0.937 atm.
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Answer:
opposite
Explanation:
Newtons law explains that for every action force there is an equal and opposite reaction.
B. lower than 7 is considered basic.
C. higher than 7 is considered an acid.
D. of 6 is considered neutral.
Answer:
close to 14 is considered a strong base.
Explanation:
Answer:the temperature might increase because of the humidity in the room so everything gets goofy and moist
Explanation:
ecosystem.
biome.
food web.
The half life of sodium -24 is 15 hour.
The duration needed for an amount to decrease to half its original is known as the half-life.
Sodium is a kind of element which has atomic number 11. It has three isotopes.
The radioactive isotope sodium-24, which is employed in blood tests in medicine, degrades through beta decay as well as seems to have an of 15.0 hours.
Therefore, the half life of sodium -24 is 15 hour.
To know more about half life.
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