Grand Test session 3 

Details 



Attension please*

Ready for Today Test

For joining test

+923472925391

 _ALHAMDO LILAH 

 *1) Number of MCQs** 

    30 per test

 *2) TEST TIMING* 

   08:00pm to 09:00pm

 *3) TEST DATE* 

   08/12/2021 

 *4) TEST SUBJECT* 

   Physics

 **5) CHAPTER NAME* 

      FORCE AND MOTION

 *6) TOPICS FOR TEST*

⮚ Displacement

⮚ Velocity

⮚ Displacement-time graph

⮚ Acceleration

⮚ Uniform acceleration

⮚ Variable acceleration

⮚ Graphical representation of acceleration with velocity time graph

⮚ Newton's laws of motion

⮚ Newton's first law of motion

⮚ Newton's second law of motion

⮚ Newton's third law of motion

⮚ Linear Momentum

⮚ Law of conservation of momentum

⮚ Collision

⮚ Elastic collision

⮚ Elastic collision in one dimension

⮚ Elastic collision in one dimension under different cases

⮚ Projectile motion

⮚ Characteristics of projectile motion

⮚ Time of flight

⮚ maximum height

⮚ Horizontal range

Learning Outcomes

⮚ Describe displacement.

⮚ Describe average velocity of objects.

⮚ Interpret displacement-time graph of objects moving along the same straight line.

⮚ Define uniform acceleration

⮚ Distinguish between, uniform and variable acceleration.

⮚ Explain that projectile motion is two-dimensional motion in a vertical plane.

⮚ Communicate the ideas of a projectile in the absence of air resistance.

⮚ Horizontal component (VH) of velocity is constant.

⮚ Acceleration is in the vertical direction and is the same as that of a vertically free-falling

object.

⮚ The horizontal motion and vertical motion are independent of each other.

⮚ Evaluate using equations of uniformly accelerated motion that for a given initial velocity

of frictionless projectile.

⮚ How higher does it go?

⮚ How far would it go along the level land?

⮚ Where would it be after a given time?

⮚ How long will it remain in air?

⮚ Determine for a projectile launched from ground height.

⮚ Launch angle that results in the maximum range.

⮚ Relation between the launch angles that result in the same range.

⮚ Apply Newton’s laws to explain the motion of objects in a variety of context.

⮚ Describe the Newton’s second law of motion as rate of change of momentum.

⮚ Correlate Newton’s third law of motion and conservation of momentum.

⮚ Solve different problems of elastic and inelastic collisions between two bodies in one

dimension by using law of conservation of momentum.

⮚ Describe that momentum is conserved in all situations.

⮚ Identify that for a perfectly elastic collision, the relative speed of approach is equal to

the relative speed of separation.



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Regards : Liaqat Mdcat