326656605-informes-semanales-fisica-1-upn.pdf

May 14, 2019 | Author: jhoselina97 | Category: Velocity, Motion (Physics), Measurement, Acceleration, Speed

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−40

◦

C

135 C ◦

◦

±

C

◦

C ±

◦

C

◦

C

150 C ◦

± ±

±

±

δ = µ

δ

=

1 µ 2

µ

F = F (x,y,z) δ δ













∂F ∂F ∂F δF = δx + δy + δz ∂x ∂y ∂z

E

= M v − M

M v E r E r

=

Error absoluto valor medido

δ

E  % = E r × 100%

1/20mm. = 0,05mm

(7 + 8 × (0,05))mm = (7 + 0,4)mm = 7,4mm

±

±

V = l × a × h δV = l × a × δh + a × h × δl + l × h × δa

ρ = δρ =

m V

1 m δm + 2 δV V V

V ± δV

δV = π

ρ ± δρ

×

V = π ×

d2 4

d 2

δd + π

×

h

×

ρ = δρ =

×

h

×

m V

1 m δm + 2 δV V V

d2 4

×

δh

V ± δV

ρ ± δρ

V = π × δV = 3π ×

ρ = δρ =

d3 6

d2 6

×

δd

m V

1 m δm + 2 δV V V

V ± δV

ρ ± δρ

E r % =

δV V

×

100%

xi yi

xi

y = f (x)

Recta : y = a + bx Parabola : y = a + bx + cx2 Hiperbola :

x2 y 2 + 2 =1 a2 b

n

n

      yi = a

i=1

xi + nb

i=1

n i=1 xi

n

n

yi xi = a

i=1

n

2

xi + b

i=1

i=1

xi

yi

a =

n

n n n i=1 yi xi − i=1 xi i=1 yi n ni=1 x2i − ( ni=1 xi )2



±

±

±

   

m/s2

L0

Lf

Lf − L0

R2

x(t)

v (t)

xi xf

∆

xf − xi

→ → → ∆− x =− x f − − xi → −

x

∆ v =

xf − xi ∆x = ∆t tf − ti

v ∆x

rapidez promedio = v =

s distancia total = t tiempo m/s

∆

v =

d x dt

a =

∆v ∆t

a =

d v dt

(x vs t)

a

1 x(t) = x 0 + v0 (t − t0 ) + a(t − t0 )2 2 v(t) = v 0 + a(t − t0) v 2 = v 02 +

2ax

x0

v0 t0

◦

◦

m/s2

m/s2

±

m/s2

±

m/s2

 r(t) = x(t) i + y(t) j

v (t) = vx

d r dx dy    =  i + j = v x i + vy j dt dt dt

vy

x ax

y

ay

v (t) = [v0x − ax (t − t0 )] i + [v0y − ay (t − t0 )] j v (t) = [v0 − a(t − t0)]

x

y

 r0 = x 0 i + y0 j

t0 r(t) 1 r(t) = r0 − v0 (t − t0 ) + a(t − t0 )2 2

v0

(x, y) ay = x

vx = v 0 cos θ

ax = 0

−g

vy = v 0 sen θ − gt x = x 0 + (v0 cos θ)t 1 y = y 0 + (v0 sen θ)t − gt 2 2 θ

v

θ ω

ωm =

θf − θ0 ∆θ = ∆t tf − t0 vt

vt = Rω

αm =

ωf − ω0 ∆ω = ∆t tf − t0

α =

dω dt at

at = αR

±

±

±

0,628 ∗ radio

a1 (m/s2 )

a2(m/s2 )

x =



a3(m/s2 )

2yv 2 g

a prom (m/s2 )

(rad/s2 )



 F = 0 =⇒ v = cte



 F =m a

 ab = F

 ba −F

±

±

±

90

◦

a1 (m/s2 )

N

◦

a2 (m/s2 )

a3 (m/s2 )

a pro (m/s2 )

m/s2

R2

f r = µ × N µ µs

µk µs > µk

f s = µ s × N

f s = µ k × N

±

±

mT

f s

µs

µk

R2

 · s = F  cos θ W = F F

s

W =



F (s)ds F = kx

1 W = kx 2 2

U = mgh

W = −∆U = U 1 − U 2

±

±

W = F  prom prom s

k =

2W x2

 • s = F s cos θ W = F

1 K = mv 2 2

W = ∆K = K 2 − K 1

±

N

◦

±

v1 (m/s) v2 (m/s) v3 (m/s)

x1 (m/s) x2 (m/s)

E  =

1 mv 2 2

x  • x W = F

xcg =

A1 x1 + A2 x2 + A3 x3 + · · · A1 + A2 + A3 + · · ·

ycg =

A1 y1 + A2 y2 + A3 y3 + · · · A1 + A2 + A3 + · · ·

X cg (mm)

Y cg (mm)

X cg (mm)

Y cg (mm)

X cg Y cg

I = mr 2 m

r

I =

I =



2



mr2

r dm =



ρr2 dV

τ = I α = rF τ

I α ω 1 E k = Iω 2 2

I eje = I cm + M h2

I eje

I cm M

h R1

R2

r m

I d

h 1/2mv 2

mgh 1/2Iω2

mgh = r t

ω

1 1 mv2 + Iω 2 2 2

ω = v/r

v/2

v = 2d/t

          

2d mgh = 2 t

m +

I r2

2d mgh

m +

1 r2

t2 =

t2 =

2d mgh

t2 =

m +

2d mgh

1 r2

m +

d2 h

1 r2

d ; = csc θ h

csc θ d

v

±

±

±

r0 r0

a1 m/s2

N

◦

θ

a =

r2 F I

a2 m/s2

a3 m/s2

326656605-informes-semanales-fisica-1-upn.pdf

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