Figure shows four paths for a kicked football. Ignoring the effects of air on the flight, rank the paths according to the initial horizontal velocity component, highest first.
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The figure here five paths traversed by a gas on a p-V diagram .Rank the paths according to the change in internal energy of the gas , greatest first .

The figure shows four arrangement of three particles of equal masses. Rank the arrangement according to the magnitude of the net gravitational force on the particle m, greatest first.

The figure shows a book-like object (one side is longer than the other) and four choices of rotation axes, all perpendicular to the face of the object. Rank the choices according to the rotational inertia of the object about the axis, greatest first.

The figure shows a particle moving along x - axis subjected to three particles of acceleration (a). Rank the periods according to the increase they produce in the particle velocity, greatest first.

The figure shows the face and interface temperatures of a composite slab consisting of four materials, of identical thickness, through which the heat transfer is steady. Rank the materials according to their thermal conductivities, greatest first.

The figure here shows three equal currents i (two parallel and one antiparallel) and four Amperian loops. Rank the loops according to the magnitude of oint along each, greatest first.

The figure here shows paths on a P-V diagram along which a gas can be taken from state I to state f . Rank the paths according to (a) the change Delta E_(net) in the interenal energy of the fas (b) the work W done by the and (c ) the magnetic of the energy transferred as heat Q between the gas and its environment , greatest first .

The figure here shows three cylindrical copper conductors along with their faces areas and lengths. Rank them according to the current through them, greatest first, when the same potential differnce V is placed across their lengths.