Data:-
Initial Volume
Initial Temperature
Final Temperature
Final Vloume
Sol:-
Since the pressure is constant and the question is asking about temperature and volume, i.e,
Hence the new volume of the gas is
In this questions Pressure P = 1 atm, Temperature T = 546 K, Volume V = 11.2 L are given , we are asked to find out $ of moles....
1 Answers 1 viewsI got... $<< K >>_(273)//n = "5.68 kJ/mol"$ $<< K >>_(546)//n = 2<< K >>_(273)//n$ $<< v >>_(273) = "454 m/s"$ $<< v >>_(546) = sqrt2<< v >>_(273)$ $"m/s"$...
1 Answers 1 viewsFrom the Ideal we know that $((PV)/T)_1 = ((PV)/T)_2$ Inserting our given values into this equation with the correct temperature values we get: $(750 mmHg * V_1)/(323’K) = (P_2...
1 Answers 1 viewsThis is an example of which states that the volume of a gas varies inversely with pressure, when mass and temperature are kept constant. Equation $V_1P_1=V_2P_2$, where $V$ is volume...
1 Answers 1 views$V_2=(P_1xxV_1xxT_2)/(P_2xxT_1)$ We immediately see that we will get an answer in $"terms of volume"$, so we're batting on a firm wicket. $V_2=(6.0*atmxx20.0*mLxx273*K)/(2.0*atmxx546*K)=??*mL$
1 Answers 1 views...according to the combined gas equation... We solve for....$V_2=(P_1V_1)/T_1xxT_2/P_2$ $=(150*kPaxx200*L)/(273*K)xx(546*K)/(600*kPa)=??*L$
1 Answers 1 viewsFirst, write the balanced chemical equation for the equilibrium and set up an ICE table. $color(white)(XXXXXX)"N"_2 color(white)(X)+color(white)(X)"3H"_2 color(white)(l)⇌ color(white)(l)"2NH"_3$ $"I/atm": color(white)(Xll)1.05 color(white)(XXXl)2.02 color(white)(XXXll)0$ $"C/atm": color(white)(X)-x color(white)(XXX)-3x color(white)(XX)+2x$ $"E/atm": color(white)(l)1.05- x...
1 Answers 1 viewsBoyles Law is the only inverse relationship between gas phase variable of the Empirical Gas Law set. That is ... For the Empirical the primary variables considered are Pressure...
1 Answers 1 viewsstates that when pressure is held constant, the temperature and volume of a gas are directly proportional, so that if one goes up, so does the other. Note: The...
1 Answers 1 viewsThis is an example of , which states that the volume of a given amount of a gas is directly proportional to its Kelvin temperature. The formula to use for...
1 Answers 1 views