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Calculating Acceleration 1. A tricycle travels at 15 m/s, after 10 s it is traveling at 35 m/s. Compute for its acceleration. 2. A dog starting from 4m/s acquires a velocity of 25 m/s in 3 s. What is its acceleration?​

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ACCELERATION

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[tex] \blue{\bold{ANSWER : }}[/tex]

  1. [tex] \blue {\boxed{\bold{A=1.5\: m/s}}}[/tex]
  2. [tex] \blue {\boxed{\bold{A=7\: m/s}}}[/tex]

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Use the formula for finding its acceleration. Given by Final and Initial Velocity.

[tex] \blue{\bold{PROBLEM \: 1 }}[/tex]

1. A tricycle travels at 15 m/s, after 10 s it is traveling at 35 m/s. Compute for its acceleration.

  • [tex] \tt A = \frac{v_f - v_i}{t} [/tex]

  • [tex] \tt A = \frac{35 \: m/s - 15 \: m/s}{10 \: seconds} [/tex]

  • [tex] \tt A = \frac{15 \: m/s}{10 \: seconds} [/tex]

  • [tex] \blue {\tt{A=1.5 \: m/s}}[/tex]

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[tex] \blue{\bold{PROBLEM \: 2}}[/tex]

2. A dog starting from 4m/s acquires a velocity of 25 m/s in 3 s. What is its acceleration?

  • [tex] \tt A = \frac{v_f - v_i}{t} [/tex]

  • [tex] \tt A = \frac{25 \: m/s - 4 \: m/s }{3 \: seconds} [/tex]

  • [tex] \tt A = \frac{21 \: m/s}{3 seconds} [/tex]

  • [tex] \blue {\tt {A= 7 \: m/s}}[/tex]

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Acceleration Formula Stands For:

[tex]\blue {\tt{A}} [/tex]= Acceleration

[tex]\blue{\tt {v_f}}[/tex] = Final Velocity

[tex]\blue{\tt{ v_i}}[/tex] = Initial Velocity

[tex]\blue {\tt{T}}[/tex] = Time

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Hope it's help!

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