A ball of mass 10 kg moving with a velocity $10 \sqrt { 3 } \mathrm {~m} \mathrm {~s} ^ { - 1 }$ along the $x$-axis, hits another ball of mass 20 kg which is at rest. After the collision, first ball comes to rest while the second ball disintegrates into two equal pieces. One piece starts moving along $y$-axis with a speed of $10 \mathrm {~m} \mathrm {~s} ^ { - 1 }$. The second piece starts moving at an angle of $30 ^ { \circ }$ with respect to the $x$-axis. The velocity of the ball moving at $30 ^ { \circ }$ with $x$-axis is $x \mathrm {~m} \mathrm {~s} ^ { - 1 }$. The configuration of pieces after the collision is shown in the figure below. The value of $x$ to the nearest integer is [Figure]
A ball of mass 10 kg moving with a velocity $10 \sqrt { 3 } \mathrm {~m} \mathrm {~s} ^ { - 1 }$ along the $x$-axis, hits another ball of mass 20 kg which is at rest. After the collision, first ball comes to rest while the second ball disintegrates into two equal pieces. One piece starts moving along $y$-axis with a speed of $10 \mathrm {~m} \mathrm {~s} ^ { - 1 }$. The second piece starts moving at an angle of $30 ^ { \circ }$ with respect to the $x$-axis. The velocity of the ball moving at $30 ^ { \circ }$ with $x$-axis is $x \mathrm {~m} \mathrm {~s} ^ { - 1 }$. The configuration of pieces after the collision is shown in the figure below. The value of $x$ to the nearest integer is\\
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