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![Page 1: Calculus in Physics II x 0 = 0 x axis Knowing the car’s displacement history, find its velocity and acceleration. 1.](https://reader035.fdocument.pub/reader035/viewer/2022062221/56649edc5503460f94bed875/html5/thumbnails/1.jpg)
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Calculus in Physics II
x0 = 0
x axis
Knowing the car’s displacement history, find its velocity and acceleration.
![Page 2: Calculus in Physics II x 0 = 0 x axis Knowing the car’s displacement history, find its velocity and acceleration. 1.](https://reader035.fdocument.pub/reader035/viewer/2022062221/56649edc5503460f94bed875/html5/thumbnails/2.jpg)
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Given a displacement history, calculate the velocity history.
Average Velocity = Δ DisplacementTotal time
V = ΔxΔt
x0 = 0x axis
![Page 3: Calculus in Physics II x 0 = 0 x axis Knowing the car’s displacement history, find its velocity and acceleration. 1.](https://reader035.fdocument.pub/reader035/viewer/2022062221/56649edc5503460f94bed875/html5/thumbnails/3.jpg)
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Given a displacement history, calculate the velocity history.
V = ΔxΔt
x0 = 0x axis
= Slope
![Page 4: Calculus in Physics II x 0 = 0 x axis Knowing the car’s displacement history, find its velocity and acceleration. 1.](https://reader035.fdocument.pub/reader035/viewer/2022062221/56649edc5503460f94bed875/html5/thumbnails/4.jpg)
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Given a displacement history, calculate the velocity history.
V = ΔxΔt
x0 = 0x axis
= Slope
![Page 5: Calculus in Physics II x 0 = 0 x axis Knowing the car’s displacement history, find its velocity and acceleration. 1.](https://reader035.fdocument.pub/reader035/viewer/2022062221/56649edc5503460f94bed875/html5/thumbnails/5.jpg)
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Given a displacement history, calculate the velocity history.
V = ΔxΔt
x0 = 0x axis
= Slope
![Page 6: Calculus in Physics II x 0 = 0 x axis Knowing the car’s displacement history, find its velocity and acceleration. 1.](https://reader035.fdocument.pub/reader035/viewer/2022062221/56649edc5503460f94bed875/html5/thumbnails/6.jpg)
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Given a displacement history, calculate the velocity history.
V = ΔxΔt
x0 = 0x axis
= Slope
![Page 7: Calculus in Physics II x 0 = 0 x axis Knowing the car’s displacement history, find its velocity and acceleration. 1.](https://reader035.fdocument.pub/reader035/viewer/2022062221/56649edc5503460f94bed875/html5/thumbnails/7.jpg)
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Given a displacement history, calculate the velocity history.
V = ΔxΔt
x0 = 0x axis
= Slope
![Page 8: Calculus in Physics II x 0 = 0 x axis Knowing the car’s displacement history, find its velocity and acceleration. 1.](https://reader035.fdocument.pub/reader035/viewer/2022062221/56649edc5503460f94bed875/html5/thumbnails/8.jpg)
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Given a displacement history, calculate the velocity history.
V = ΔxΔt
x = 0x axis
≈ Slope (if Δt small enough)
x0 = 15
Slope constantly changing,V changes in time!
Find slope at time = 2.8 sec
approximately
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Given a displacement history, calculate the velocity history.
x = 0x axis
x0 = 15
Find slope at time = 2.8 sec
Time x2.8 18.36 m = -4.65.8 4.56
V = ΔxΔt
≈ Slope
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Given a displacement history, calculate the velocity history.
V = ΔxΔt
x = 0x axis
≈ Slope
x0 = 15
Find slope at time = 2.8 sec
Time x2.8 18.36 m = -2.63.8 15.76
![Page 11: Calculus in Physics II x 0 = 0 x axis Knowing the car’s displacement history, find its velocity and acceleration. 1.](https://reader035.fdocument.pub/reader035/viewer/2022062221/56649edc5503460f94bed875/html5/thumbnails/11.jpg)
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Given a displacement history, calculate the velocity history.
x = 0x axis
x0 = 15
Find slope at time = 2.8 sec
Time x2.8 18.36 m = -1.72.9 18.19
Exact answer = -1.6
V = ΔxΔt
≈ Slope
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Given a displacement history, calculate the velocity history.
x = 0x axis
x0 = 15
Find slope at time = 2.8 sec
Exact answer = -1.6
Differential Calculus
V = ΔxΔt
= Slope = limΔt→0
dxdt
V = ΔxΔt
≈ Slope
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Differential Calculus for PhysicsPower Rule
Given: x = a tb; where a and b are constants.
= ab tb-1dxdt
Given: y = a xb; where a and b are constants.
= ab xb-1dydx
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Find the derivative (dx/dt) ≡ Find the Velocity
x = 10 t2
x = 5 t3
x = 3
x = 3 t3 - 2 t2 + 27
x = 0
x axis
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y = 10 t2
y = 3 t3
y = 6 t5
y = 2 t3 + 8 t2 - 27
y = 0
y axis
Find the derivative (dy/dt) ≡ Find the Velocity
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Find the derivative (dy/dx):y = 4 x2
y = 2 x3+ 2x +33
y = 6 x4
y = 8 x2 + 8 x - 27
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x = a tb
x = - t2 +4 t + 15
= v = -2 t +4dxdt
(t = 2.8) = v = -2(2.8)+4dxdt
(t = 2.8) = -1.6dxdt
ftsec
Use calculus to find the velocity at 2.8 sec.
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x0 = 0x axis
Slope constantly changing,V changes in time!
V = ΔxΔt
= Slope = limΔt→0
dxdt
Use calculus to find the velocity at 10. sec.
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Given a displacement history, calculate the velocity history.
x0 = 0x axis
Find velocity at 10. sec
V = ΔxΔt
= Slope = limΔt→0
dxdt
x = 0.1 t2
= v = 0.2 tdxdt
(t = 10) = 2dxdt
ftsec
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If the displacement is a parabola, the velocity is linear.
If the velocity is increasing what does that say about the acceleration?
Average acceleration= Δ VelocityTotal time
a = ΔvΔt
a = ΔvΔt
= Slope of velocity = limΔt→0
dvdt
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a = ΔvΔt
= Slope of velocity = limΔt→0
dvdt
v = 0.2 t
= 0.2dvdt
ftsec2a =
Given a velocity history, calculate the acceleration history.
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Find the derivative (dv/dt) ≡ Find the Acceleration
v = 20 t
v = 15 t2
v = 0
v = 9 t2 - 4 t
x = 0
x axis
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Given a displacement history, calculate the acceleration.
Find acceleration at 10. sec
x = 0.1 t2
= v = 0.2 tdxdt
= 0.2dvdt
ftsec2a = = d2x
dt2dxdt
= d dt
Find acceleration at 20. sec
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Find second derivative (d2x/dt2) (i.e., acceleration):
x = 10 t2
x = 5 t3
x = 3
x = 3 t3 - 2 t2 + 27
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y = 10 t2
y = 3 t3
y = 6 t5
y = 2 t3 + 8 t2 - 27
Find second derivative (d2y/dt2) (i.e., acceleration):
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y = 4 x2
y = 2 x3+ 2x +33
y = 6 x4
y = 8 x2 + 8 x - 27
Find second derivative (d2y/dx2):
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Summary of Definitions
v = dxdt
dvdt
a =
dvdt
a = = d2xdt2
dxdt
= d dt
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x0 = 0
x axis
Knowing the car’s velocity history, find its displacement.
Calculus in Physics II
We will be working the earlier problems in reverse; integration is the inverse operation of
differentiation.
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Given a velocity history, calculate the displacement history.
Average Velocity = Δ DisplacementTotal time
v = ΔxΔt
x0 = 0x axis
Δx = v Δt
Know:
Therefore:
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Check out these possible solutions.
x0 = 0x axis
V = ΔxΔt
= Slope = limΔt→0
dxdt
Which curve satisfies the above definition of velocity to produce a velocity = 1?
All of them!
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Given a velocity history, calculate the displacement at t = 2 sec.
V = ΔxΔt
x0 = 0x axis
Δx = v Δt
v = (1 ft/s) (2 s) = 2 ftThe area under the curve!
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Possible solutions.
x0 = 0x axis
Which curve has a displacement of 2 ft at 2 sec?
x = t
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Given a velocity history, calculate the displacement at t = 2 sec.
Area under velocity curve is the displacement.
x0 = 0x axis
Δx = v Δt
Sum all the areas is integral calculus.
Δt = dt
dx = v dt
∫𝑑𝑥=¿∫𝑣 𝑑𝑡
∫𝑣 𝑑𝑡x =
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Integral Calculus for PhysicsReverse Power Rule
= at(b+1)
(b+1) + C
= ax(b+1)
(b+1) + C
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Find the integrals of the following ≡ Find the displacement
v = 20 t
v = 15 t2
v = 0
v = 9 t2 - 4 t
x = 0
x axis
x = 10 t2 + C
x = 5 t3 + C
x = C
x = 3 t3 - 2 t2 + C
v = 2 x = 2t + C
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Given a velocity history, displacement = 0 at start, calculate the displacement history.
x0 = 0x axis
Δt = dt
∫𝑣 𝑑𝑡x =
Given: v = 1
x = t + x0
The initial displacement at t = 0 was zero; therefore, x0 = 0
x = t
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Given a velocity history, and knowing that the initial displacement was 0 (X0 = 0), calculate the displacement history.
x0 = 0x axis
∫𝑣 𝑑𝑡x =
Given: v = 0.2 t
x = 0.1 t2 + x0
The initial displacement (x0) at t = 0 was zero; therefore, x0 = 0
x = 0.1 t2
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Verify that the area under the velocity curve is the displacement.
∫𝑣 𝑑𝑡x =
x (6 sec) = 0.5 (6 sec) (1.2 ft/sec)X (6 sec) = 3.6 ft
(6 sec, 3.6 ft)
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Given an acceleration history, find the velocity history.
v0 = 0x axis
∫𝑎𝑑𝑡v =
Average Acceleration= Δ VelocityTotal time
a = ΔvΔt
Δv = aΔt
Define:
Therefore:
dv = a dt
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Given an acceleration history, and knowing that the initial velocity was 0 (v0 = 0), calculate the velocity history.
v0 = 0x axis
∫𝑎𝑑𝑡v =
Given: a = 0.2
∫ 0.2𝑑𝑡v = = 0.2 t + v0
At t = 0, v = 0; therefore, v0 = 0.
v = 0.2 t
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Summary of Definitions
v = dxdt
dvdt
a =
∫𝒗𝒅𝒕x =
∫𝒂𝒅𝒕v =
dvdt
a = = d2xdt2
dxdt
= d dt x = ∬ 𝒂𝒅𝒕𝟐
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Constant acceleration (gravity)
v =
= -gd2xdt2
x =
v0 = v
a = -g
dxdt
= -g t + v0
-g t2
2 + v0t + x0
x0 = 0
The hardest problem will be to solve two simultaneous equations.