0
You visited us 0 times! Enjoying our articles? Unlock Full Access!
Question

(ii) the internal volume of the container in \( \mathrm { m } ^ { 3 } \)

Solution
Verified by Toppr


Was this answer helpful?
0
Similar Questions
Q1
Find the volume (m3) of the container of measurement 5.5 m,4 m,3 m
View Solution
Q2
With reference to the figure given above a metal container in the form of a cylinder is surmounted by hemisphere of the same radius. The internal height of the cylinder is 7 m and the internal radius is 3.5 m
(i) the total area of the internal surface excluding the base:
(ii) The internal volume of the container in m3.
(Take π to be 227.)
1125636_ef4d4a9c68af44b8804f3d027df827d2.png
View Solution
Q3
With reference to the given figure. a metal container in the form of a cylinder is surmounted by a hemisphere of the same radius. The internal height of the cylinder is 7 m and internal radius is 3.5 m. Calculate: [4 MARKS]
(i) The total area of the internal surface excluding the base
(ii) The internal volume of the container in m3.
(Use π=227)



View Solution
Q4
A certain balloon maintains an internal gas pressure of $$ P_{0}=100 \mathrm{kPa} $$ until the volume reaches $$ V_{0}=20 \mathrm{m}^{3} $$ Beyond a volume of $$ 20 \mathrm{m}^{3}, $$ the internal pressure varies as $$ P=P_{0}+2 k\left(V-V_{0}\right)^{2} $$ where $$ P $$ is in $$ \mathrm{kPa}, V $$ is in $$ \mathrm{m}^{3} $$ and $$ k $$ is a constant $$ \left(k=1 \mathrm{kP} \mathrm{a} / \mathrm{m}^{3}\right) $$. Initially the balloon contains helium gas at $$ 20^{\circ} \mathrm{C}, 100 \mathrm{kPa} $$ with a $$ 15 \mathrm{m}^{3} $$ volume. The balloon is then heated until the volume becomes $$ 25 \mathrm{m}^{3} $$ and the pressure is 150 kPa. Assume ideal gas behaviour for helium. The work done by the balloon for the entire process in $$ \mathrm{kJ} $$ is
View Solution
Q5
the internal energy of air in a room of volume 100 m3 at 1 atm i
View Solution