its final displacement will be" 0 " .......becoz u displacement is th shortest distance b/w initial and final point...............its the best answer .i bet...........
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The difference between the final and the initial position of an object is called displacement. Unit of displacement is metre . Displacement <= Distance always.
Roller coasters often have loops and turns that make their final displacement different than their final distance. But, if the roller-coaster is a loop, the displacement will obviously be 0. If the displacement is not 0, it is measured in meters.
Displacement
velocity is displacement / time. Displacement is shortest distance between initial and final point
Final position - Initial position
Kinematics. Final velocity squared = initial velocity squared + 2(gravitational acceleration)(displacement)
The magnitude of displacement is the shortest distance between the initial and final position. In case of a particle completing one full round around a circle the displacement is ZERO. Because the initial and final positions are one and the same
The final displacement would be 3 km east of the starting point.
when the body moves circularly from a point 'A' to a then the displacement will be zero(displacement is the shortest diatance from the initial point to final point) and the distance will not be zero.
Yes. If you end up where you started, your displacement is zero, but the distance you travel is the actual amount of ground covered. For example, if you made a round trip of 50 miles, your displacement would be zero miles, but your distance would be 50 miles. This is because the final position and the initial position are the same. Round trips always have a displacement of zero.
The Tatkal 3AC ticket may or may not allow for a travel spot. Often times the three travelers are separated and arrive at the final destination on different days. Seat availability causes the uncertainty.
What is the distance and direction of an object's change in position from its original point? How can displacement be calculated using vector addition? In what way does displacement differ from distance traveled? How does displacement relate to an object's initial and final positions?