vol 1 dan vol 2

2
LATIH TUBI VOL 1 CHAPTER 2 1) A car moving with velocity of 30 m s -1 decelerates uniformly to stop in 5 s. What is the deceleration of the car? 2) A sport car takes 4 s to accelerate from rest to 28 m s -1 , determine the car acceleration. 3) A car is accelerate at 6 m s -2 from an initial velocity of 2 m s -1 for 10 seconds. a) What is the final velocity? b) The distance moved? LATIH TUBI VOL 1 CHAPTER 2 1) A car moving with velocity of 30 m s -1 decelerates uniformly to stop in 5 s. What is the deceleration of the car? 2) A sport car takes 4 s to accelerate from rest to 28 m s -1 , determine the car acceleration. 3) A car is accelerate at 6 m s -2 from an initial velocity of 2 m s -1 for 10 seconds. a) What is the final velocity? b) The distance moved? LATIH TUBI VOL 1 CHAPTER 2 1) A car moving with velocity of 30 m s -1 decelerates uniformly to stop in 5 s. What is the deceleration of the car? 2) A sport car takes 4 s to accelerate from rest to 28 m s -1 , determine the car acceleration. 3) A car is accelerate at 6 m s -2 from an initial velocity of 2 m s -1 for 10 seconds. a) What is the final velocity? b) The distance moved? LATIH TUBI VOL 1 CHAPTER 2 1) A car moving with velocity of 30 m s -1 decelerates uniformly to stop in 5 s. What is the deceleration of the car? 2) A sport car takes 4 s to accelerate from rest to 28 m s -1 , determine the car acceleration. 3) A car is accelerate at 6 m s -2 from an initial velocity of 2 m s -1 for 10 seconds. a) What is the final velocity? b) The distance moved? LATIH TUBI VOL 1 CHAPTER 2 1) A car moving with velocity of 30 m s -1 decelerates uniformly to stop in 5 s. What is the deceleration of the car? 2) A sport car takes 4 s to accelerate from rest to 28 m s -1 , determine the car acceleration. 3) A car is accelerate at 6 m s -2 from an initial velocity of 2 m s -1 for 10 seconds. a) What is the final velocity? b) The distance moved?

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  • LATIH TUBI VOL 1 CHAPTER 2 1) A car moving with velocity of 30 m s-1 decelerates uniformly to stop in 5 s. What is the deceleration of

    the car?

    2) A sport car takes 4 s to accelerate from rest to 28 m s-1, determine the car acceleration. 3) A car is accelerate at 6 m s-2 from an initial velocity of 2 m s-1 for 10 seconds.

    a) What is the final velocity? b) The distance moved?

    LATIH TUBI VOL 1 CHAPTER 2 1) A car moving with velocity of 30 m s-1 decelerates uniformly to stop in 5 s. What is the deceleration of

    the car?

    2) A sport car takes 4 s to accelerate from rest to 28 m s-1, determine the car acceleration. 3) A car is accelerate at 6 m s-2 from an initial velocity of 2 m s-1 for 10 seconds.

    a) What is the final velocity? b) The distance moved?

    LATIH TUBI VOL 1 CHAPTER 2 1) A car moving with velocity of 30 m s-1 decelerates uniformly to stop in 5 s. What is the deceleration of

    the car?

    2) A sport car takes 4 s to accelerate from rest to 28 m s-1, determine the car acceleration. 3) A car is accelerate at 6 m s-2 from an initial velocity of 2 m s-1 for 10 seconds.

    a) What is the final velocity? b) The distance moved?

    LATIH TUBI VOL 1 CHAPTER 2 1) A car moving with velocity of 30 m s-1 decelerates uniformly to stop in 5 s. What is the deceleration of

    the car?

    2) A sport car takes 4 s to accelerate from rest to 28 m s-1, determine the car acceleration. 3) A car is accelerate at 6 m s-2 from an initial velocity of 2 m s-1 for 10 seconds.

    a) What is the final velocity? b) The distance moved?

    LATIH TUBI VOL 1 CHAPTER 2 1) A car moving with velocity of 30 m s-1 decelerates uniformly to stop in 5 s. What is the deceleration of

    the car?

    2) A sport car takes 4 s to accelerate from rest to 28 m s-1, determine the car acceleration. 3) A car is accelerate at 6 m s-2 from an initial velocity of 2 m s-1 for 10 seconds.

    a) What is the final velocity? b) The distance moved?

  • LATIH TUBI VOL 2 CHAPTER 2

    1) A driver travelling at a velocity of 108 km h-1 notices a cow in the middle of the road 80 m in front of him. On seeing the cow, the driver instantly applies the brakes and is able to bring the car stop after 6 seconds. a) What is the deceleration of the car? b) Calculate the distance travelled by car from the time the driver applies the brakes until it comes to

    stop. c) Is the driver able to avoid knocking the cow?

    LATIH TUBI VOL 2 CHAPTER 2

    1) A driver travelling at a velocity of 108 km h-1 notices a cow in the middle of the road 80 m in front of him. On seeing the cow, the driver instantly applies the brakes and is able to bring the car stop after 6 seconds. a) What is the deceleration of the car? b) Calculate the distance travelled by car from the time the driver applies the brakes until it comes to

    stop. c) Is the driver able to avoid knocking the cow?

    LATIH TUBI VOL 2 CHAPTER 2

    1) A driver travelling at a velocity of 108 km h-1 notices a cow in the middle of the road 80 m in front of him. On seeing the cow, the driver instantly applies the brakes and is able to bring the car stop after 6 seconds. a) What is the deceleration of the car? b) Calculate the distance travelled by car from the time the driver applies the brakes until it comes to

    stop. c) Is the driver able to avoid knocking the cow?

    LATIH TUBI VOL 2 CHAPTER 2

    1) A driver travelling at a velocity of 108 km h-1 notices a cow in the middle of the road 80 m in front of him. On seeing the cow, the driver instantly applies the brakes and is able to bring the car stop after 6 seconds. a) What is the deceleration of the car? b) Calculate the distance travelled by car from the time the driver applies the brakes until it comes to

    stop. c) Is the driver able to avoid knocking the cow?

    LATIH TUBI VOL 2 CHAPTER 2

    1) A driver travelling at a velocity of 108 km h-1 notices a cow in the middle of the road 80 m in front of him. On seeing the cow, the driver instantly applies the brakes and is able to bring the car stop after 6 seconds. a) What is the deceleration of the car? b) Calculate the distance travelled by car from the time the driver applies the brakes until it comes to

    stop. c) Is the driver able to avoid knocking the cow?