The universal gas law states that the volume ( V m^3) of a given mass of an ideal gas varies directly with its absolute temperature (TK) and inversely with its pressure (p N/m^2).

(a) According to the universal gas law, the formula connecting pressure (p), volume (V), and absolute temperature (T) is given by:

pV = kT

where k is a constant.

(b) To find the pressure of the gas when its absolute temperature is 374 K and its volume is 0.018 m^3, we can use the formula from part (a):

pV = kT

Since k is a constant, the equation can be rearranged as:

p = (kT) / V

To solve for p, we need to find the value of k. We can do this by using the given information:

V = 0.0235 m^3
T = 285 K
p = 10^5 N/m^2

We can substitute these values into the equation to solve for k:

10^5 * 0.0235 = k * 285

2350 = 285k

k = 2350 / 285

k ≈ 8.246

Now that we have the constant k, we can use it to find the pressure when T = 374 K and V = 0.018 m^3:

p = (8.246 * 374) / 0.018

p ≈ 171,753.333 N/m^2

Therefore, the pressure of the gas when its absolute temperature is 374 K and its volume is 0.018 m^3 is approximately 171,753.333 N/m^2.