33:["$","div",null,{"className":"flex flex-col gap-4 pt-2","children":[["$","h2",null,{"className":"text-xl font-bold text-theme-black dark:text-white","children":"Similar questions"}],["$","div",null,{"className":"flex flex-col gap-3","children":[["$","$L15","a-girl-jumps-down-from-a-moving-bus-along-the-direction-of-motion-of-the-bus-tilting-sligh_4094477",{"href":"/ask/question/a-girl-jumps-down-from-a-moving-bus-along-the-direction-of-motion-of-the-bus-tilting-sligh_4094477","className":"card card-hover px-5 py-4 flex items-start justify-between gap-4 group","children":[["$","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":["$","$L2f",null,{"html":"A girl jumps down from a moving bus, along the direction of motion of the bus, tilting slightly forward. She falls on $(a)$ a sheet of ice $(b)$ a patch of glue."}]}],["$","span",null,{"className":"text-theme-blue shrink-0 mt-0.5 transition-transform group-hover:translate-x-1","children":"→"}]]}],["$","$L15","supposing-newtons-law-of-gravitation-for-gravitation-forces-f1-and-f2-between-two-masses-m_4105779",{"href":"/ask/question/supposing-newtons-law-of-gravitation-for-gravitation-forces-f1-and-f2-between-two-masses-m_4105779","className":"card card-hover px-5 py-4 flex items-start justify-between gap-4 group","children":[["$","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":["$","$L2f",null,{"html":"Supposing Newton’s law of gravitation for gravitation forces F₁ and F₂ between two masses m₁ and m₂ at positions r₁ and r₂ read $\\text{F}_1=-\\text{F}_2=-\\frac{\\text{r}^{12}}{\\text{r}^3_{12}}\\text{GM}_0^2\\Big(\\frac{\\text{m}_1\\text{m}_2}{\\text{M}^2_0}\\Big)^\\text{n}$ where M₀is a constant of dimension of mass, r₁₂ = r₁ – r₂ and n is a number. In such a case,

The acceleration due to gravity on earth will be different for different objects.
None of the three laws of Kepler will be valid.
Only the third law will become invalid.
For n negative, an object lighter than water will sink in water.

"}]}],["$","span",null,{"className":"text-theme-blue shrink-0 mt-0.5 transition-transform group-hover:translate-x-1","children":"→"}]]}],["$","$L15","a-particle-of-mass-m-is-moving-with-a-uniform-velocity-v1-it-is-given-an-impulse-such-that_4095225",{"href":"/ask/question/a-particle-of-mass-m-is-moving-with-a-uniform-velocity-v1-it-is-given-an-impulse-such-that_4095225","className":"card card-hover px-5 py-4 flex items-start justify-between gap-4 group","children":[["$","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":"$L34"}],"$L35"]}],"$L36","$L37","$L38","$L39","$L3a","$L3b","$L3c"]}]]}]

11. thermodynamics — Physics STD 11 Science — Question

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