A0.305mol sample of so2(g), initially at 298 k and 1.00 atm, is held at constant pressure while enough heat is applied to raise the temperature of the gas by 17.9k. calculate the amount of heat q required to bring about this temperature change, and find the corresponding total change in the internal energy δu of the gas.

assume that the constant‑pressure molar specific heat for so2(g), which consists of nonlinear molecules, is equal to 4r, where r is the ideal gas constant.

what is the average time it took the car to travel 0.25 meters?

⇒ 2.23 seconds

what is the average time it took the car to travel 0.50 meters?

⇒ 3.13 seconds

> b takes place in the gas phase in an isothermal tubular reactor. the feed is one mole of a per one mole of c, an inert. the entering temperature and pressure are 427°c and 10 atm, respectively. the gas constant r = 0.08206 atm · l/mol · k.

the correct answer would be b. amelia, because the particals of gas move really fast (charged particals) and gas also has a lot of room (particals move independently) so the only answer that has both of those is amelia's.