91Ó°ÊÓ

a) Density of iron anchor, ${\mathrm{ÒÏ}}_{Fe}=7870\mathrm{kg}/{\mathrm{m}}^3$

b) Buoyant force,$F_b=200\mathrm{N}$

We can use the Archimedes principle to find the force of buoyancy in the water. Using this force, we can find the volume. Also, apparent weight is the difference between actual weight and buoyant force. Using this concept, it is possible to find the weight of the anchor.

Formula:

Buoyant force exerted by fluid on body, ${\mathrm{F}}_{\stackrel{Ë™}{\mathrm{i}}}={\mathrm{ÒÏ}}_{\text{water}}×\mathrm{g}×\mathrm{V}$ (i)

The apparent weight of a body, ${\mathrm{W}}_{\text{app}}=\mathrm{W}−{\mathrm{F}}_{\mathrm{b}}$(ii)

The weight of a body, $\mathrm{W}=\mathrm{mg}$(iii)

Comparing and substituting values of equations (i), (ii) & (iii) and using the given values, we get

$\mathrm{W}−{\mathrm{W}}_{\text{app}}={\mathrm{ÒÏ}}_{\text{woter}}×\mathrm{g}×\mathrm{V}$

$\mathrm{mg}−{\mathrm{W}}_{\mathrm{app}}={\mathrm{ÒÏ}}_{\text{water}}×\mathrm{g}×\mathrm{V}$

$\frac{200}{{\mathrm{ÒÏ}}_{\text{water}}×\mathrm{g}}=\mathrm{V}$

$\frac{200}{\left(1000\right)(9.8)}=\mathrm{V}$

$\mathrm{V}=0.0204{\mathrm{m}}^3$

Hence, the volume of iron anchor is found to be$0.0204{\mathrm{m}}^3$

Density can be written as

$\mathrm{Density}=\frac{\mathrm{Mass}}{\mathrm{Volume}}$

So, the mass of the anchor is$\mathrm{m}={\mathrm{ÒÏ}}_{60}×\mathrm{V}$

From equation (iii) and (1), we get

$\mathrm{W}={\mathrm{ÒÏ}}_{\mathrm{g}}×\mathrm{V}×\mathrm{g}$

$=7870×0.0204×9.8$

$=1573.4\mathrm{N}$

Hence, the weight of anchor in air is$1573.4\mathrm{N}$