Question

mastering chemistry hat do you predict for the height of a barometer column based on 1-iodododecane, when the atmospheric pressure is 751 torr ? Note that 1 torr corresponds to 1 mm of a liquid mercury column.

Answer 1

The height of a barometer column with 1-iodododecane at 751 torr would depend on the density of 1-iodododecane relative to mercury. Using the hydrostatic pressure formula, the height can be determined with the known density of 1-iodododecane.

Step-by-step explanation:

When considering the height of a barometer column based on 1-iodododecane at an atmospheric pressure of 751 torr, it's important to account for the density of 1-iodododecane relative to that of mercury. Since the density of the 1-iodododecane will be different from mercury (13.6 g/cm³), the height of the barometer column for the same atmospheric pressure would also be different. To find the height, one would need to use the formula for hydrostatic pressure, p = ρgh, where ρ is the density of the fluid, g is the acceleration due to gravity, and h is the height of the column. With the density of 1-iodododecane known, one could rearrange the formula to solve for h to find the expected height of the barometer column at 751 torr.

Answer 2

the height of a iodododecane barometer column =66.46mm

Step-by-step explanation:

we will the density of liquid 1-iodododecane and the density of mecury (compare with the given value of mercury)

when the atmospheric pressure is 751 torr ?

the compound 1-iodododecane has a density of 1.2g/mL

the density of mercury is 13.56g/mL

for mercury at

1 torr corresponds to 1 mm of a liquid mercury column= 13.56g/ml

for 1-iodododecane

751toor = ? at 1.2g/mL

1 torr = 1mm = 13.56

751 torr of mercury = 751mm = 13.56

751 toor of iodo = ? = 1.2

751mm = 13.56

? ====1.2

1.2 * 751)/13.56 =66.46mm

the height of a iodododecane barometer column =66.46mm