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Vectors and Kinematics – (Part 2 of 2)

You can find the first part of this series here: Vectors and Kinematics (Part 1 of 2).

Projectile Motion

Remember these acronyms: soh, cah, toa.

soh = sinº = opposite / hypotenuse

cah = cosº = adjacent / hypotenuse

toa = tanº = opposite / adjacent

  • The opposite side is the one that is opposite the angle ‘x’

Example

Consider a rocket is launched off at a 30º angle to the ground at 10 m/s.

rocket

Q. How far will it travel? (Horizontal displacement)

S denotes displacement

|| Vy || denotes magnitude of object in direction y

SOH, CAH, TOA

rocket-2

  • sin(30) = || Vy || / 10 m/s
  • 10 × sin(30) = || Vy ||
  • 10 × ½ = || Vy ||
  • 5 m/s = || Vy ||  ← This is the vertical component

However, the vertical component goes up, as well as down.

Initial = Vi = 5 m/s

Final = Vf = -5 m/s

  • Δvy = -5 m/s – 5m/s ⇒ -10 m/s
  • Δvy = ay × Δt
  • -10 m/s = -9.8 m/s2 × Δt
  • Divide both sides by -9.8 m/s2
  • ∴ 1.02 seconds = Δt

For the horizontal component:

  • Cos(30) = || Vx || / 10 m/s
  • 10 × Cos(30) = || Vx ||
  • || Vx || = 5√3 m/s
  • Sx = 5√3 m/s × 1.02 seconds
  • Sx = 8.83 meters

For the vertical component:

Vy = 5 m/s

Y axis meaning the up/down axis.

The positive value (+5 m/s) = the projectile is travelling up (y-axis); or to the right (x-axis). A negative value here would mean it was travelling downward (y-axis), or to the left (x-axis).

So, Vy = 5 m/s, meaning the object is travelling up @ 5 m/s

Q. How long does the rocket stay in the air?

  • S = Vaverage × Δt
  • S = (Vi + Vf)/2 × Δt

Vf = Vi + a × Δt

Deriving the formula:

  • S = (Vi + Vi + a × Δt)/2 × Δt
  • S = (Vi + a × Δt/2) × Δt
  • S = V× Δt + (a +Δt2/2)

Now, at the start, S = 0

  • 0 = 5 × Δt – (9.8(Δt2)/2)
  • 0 = Δt × (5 – 4.9 × Δt)    ← one of these underlined, must equal 0
  • If we assume  the first  Δt = 0, then:
  • 5 = 4.9 × Δt
  • 5/4.9 = (4.9 × Δt)/4.9
  • Δt = 1.02 seconds

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