# 11.2.2. Uniformly Accelerated Rectilinear Motion

If a particle started moving in a constant direction with a velocity of cm/s and with a uniform acceleration of , determine its velocity after 5.3 seconds.

• Acm/s
• Bcm/s
• Ccm/s
• Dcm/s
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A man was driving his car with a velocity of km/hr when he pressed the brakes. If the car’s velocity was decreasing with a constant rate until it stopped completely in 10 seconds, determine the distance that the car covered in this time.

• Am
• Bm
• Cm
• Dm
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A particle started moving in a straight line with a velocity of cm/s and a uniform acceleration of in the same direction. Determine the distance covered by the particle after 2 seconds of its motion.

• Acm
• Bcm
• Ccm
• Dcm
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Given that a car, starting from rest, moves with an acceleration of , determine the distance covered when its velocity reaches m/s.

• Am
• Bm
• Cm
• Dm
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If a particle starts moving along a straight line from rest with a uniform acceleration of covering a distance of cm, determine its velocity at the end of the distance given.

• Acm/s
• Bcm/s
• Ccm/s
• Dcm/s
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A man was driving his car at a constant velocity of m/s. when he suddenly saw a child crossing the street and immediately hit the brakes. If the car’s braking response time is 0.9 seconds, and it was moving with a uniform deceleration of until it stopped, determine the distance covered by the car from the moment the brakes were hit until it stopped completely.

• Am
• Bm
• Cm
• Dm
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Determine the time taken by a particle to increase its velocity from m/s to m/s while traveling for m, given that it is moving in a straight line with a uniform acceleration.

• A
14.54
seconds
• B
17.89
seconds
• C
11.19
seconds
• D15.8 seconds
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The figure shown represents the relation between the time and velocity of a body that started moving with an initial velocity of m/s. Determine the body’s acceleration, given that it came to rest after 35 seconds.

• A
• B
• C
• D
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The figure shown represents the relation between the time and velocity of a body that started moving with an initial velocity of m/s. Determine the body’s acceleration, given that it came to rest after 40 seconds.

• A
• B
• C
• D
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The figure shown represents the relation between the time and velocity of a body that started moving with an initial velocity of m/s. Determine the uniform deceleration of the body, given that it came to rest after 100 seconds.

• A
• B
• C
• D
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A body moved in a straight line a distance of m with a velocity m/s. Then it moved with a velocity of m/s in the same direction for 13 seconds. Find the average velocity during the whole trip.

• Am/s
• Bm/s
• Cm/s
• Dm/s
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Given that a body moved in a straight line with a velocity m/s and with an acceleration of , find the distance covered in 3 seconds.

• Am
• Bm
• Cm
• Dm
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