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fd, , , , Problem 34., , velocity time \, , => Exaw:, The acceleration-time graph of a body is shown below —
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yY, , Problem 35., , Which of the following velocity time graphs is not possible
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UTI, , introduction, , “Motion In Two Dimension, , , , Projectile, , , , Te, , Assumptions of projectile motion, , , , Principle of physical independence of motions, , , , ypes of projectile motion, , , , \=, , F Oblique projectile, , , , iS, , Ye, , {Horizontal projectile, , , , , , FBrojectile on an inclined plane, , >? How bo, Solve
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The motion of an object is called two dimensional, if two of the three co-ordinates are, required to specify the position of the object in space changes w.r.t time., , In such a motion, the object moves in a plane. For example, a billiard ball moving over the, billiard table, an insect crawling over the floor of a room, earth revolving around the sun etc., , Two special cases of motion in two dimension are ea, motion, , , , Projectile motion , A. Circular, we
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The lion and_ring-master both perfectly, understand the concept of projectile motion, and apply it in their circus to cross the firewheel which placed between the two table, and at a particular height from the ground.