2f:["$","div",null,{"className":"flex flex-col gap-4 pt-2","children":[["$","h2",null,{"className":"text-xl font-bold text-theme-black dark:text-white","children":"Similar questions"}],["$","div",null,{"className":"flex flex-col gap-3","children":[["$","$L15","a-source-of-sound-placed-at-the-open-end-of-a-resonance-column-sends-an-acoustic-wave-of-p_2767532",{"href":"/ask/question/a-source-of-sound-placed-at-the-open-end-of-a-resonance-column-sends-an-acoustic-wave-of-p_2767532","className":"card card-hover px-5 py-4 flex items-start justify-between gap-4 group","children":[["$","div",null,{"className":"flex-1 text-sm text-theme-black dark:text-white [&_img]:max-w-full [&_img]:h-auto [&_table]:w-full [&_table]:border-collapse [&_td]:border [&_td]:border-[var(--border)] [&_td]:px-2 [&_td]:py-1 [&_th]:border [&_th]:border-[var(--border)] [&_th]:px-2 [&_th]:py-1 question-html","children":["$","$L2b",null,{"html":"A source of sound placed at the open end of a resonance column sends an acoustic wave of pressure amplitude ${\\rho _0}$ inside the tube. If the atmospheric pressure is ${\\rho _A},$ then the ratio of maximum and minimum pressure at the closed end of the tube will be"}]}],["$","span",null,{"className":"text-theme-blue shrink-0 mt-0.5 transition-transform group-hover:translate-x-1","children":"→"}]]}],["$","$L15","the-angular-acceleration-of-a-body-moving-along-the-deg-umference-of-a-deg-le-is_2755800",{"href":"/ask/question/the-angular-acceleration-of-a-body-moving-along-the-deg-umference-of-a-deg-le-is_2755800","className":"card card-hover px-5 py-4 flex items-start justify-between gap-4 group","children":[["$","div",null,{"className":"flex-1 text-sm text-theme-black dark:text-white [&_img]:max-w-full [&_img]:h-auto [&_table]:w-full [&_table]:border-collapse [&_td]:border [&_td]:border-[var(--border)] [&_td]:px-2 [&_td]:py-1 [&_th]:border [&_th]:border-[var(--border)] [&_th]:px-2 [&_th]:py-1 question-html","children":["$","$L2b",null,{"html":"The angular acceleration of a body, moving along the circumference of a circle, is :"}]}],["$","span",null,{"className":"text-theme-blue shrink-0 mt-0.5 transition-transform group-hover:translate-x-1","children":"→"}]]}],["$","$L15","a-listener-is-at-rest-with-respect-to-the-source-of-sound-a-wind-starts-blowing-along-the-_404268",{"href":"/ask/question/a-listener-is-at-rest-with-respect-to-the-source-of-sound-a-wind-starts-blowing-along-the-_404268","className":"card card-hover px-5 py-4 flex items-start justify-between gap-4 group","children":[["$","div",null,{"className":"flex-1 text-sm text-theme-black dark:text-white [&_img]:max-w-full [&_img]:h-auto [&_table]:w-full [&_table]:border-collapse [&_td]:border [&_td]:border-[var(--border)] [&_td]:px-2 [&_td]:py-1 [&_th]:border [&_th]:border-[var(--border)] [&_th]:px-2 [&_th]:py-1 question-html","children":["$","$L2b",null,{"html":"A listener is at rest with respect to the source of sound. A wind starts blowing along the line joining the source and the observer. Which of the following quantities do not change?\r\n

\r\n\t
Frequency.
\r\n\t
\r\n\t
Velocity of sound.
\r\n\t
\r\n\t
Wavelength.
\r\n\t
\r\n\t
Time period.
\r\n\t

\r\n"}]}],["$","span",null,{"className":"text-theme-blue shrink-0 mt-0.5 transition-transform group-hover:translate-x-1","children":"→"}]]}],["$","$L15","the-range-of-a-particle-when-launched-at-an-angle-of-15o-with-the-horizontal-is-15-km-what_2755939",{"href":"/ask/question/the-range-of-a-particle-when-launched-at-an-angle-of-15o-with-the-horizontal-is-15-km-what_2755939","className":"card card-hover px-5 py-4 flex items-start justify-between gap-4 group","children":["$L30","$L31"]}],"$L32","$L33","$L34","$L35","$L36","$L37"]}]]}]

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