For the 2015-2016 school year, students using Albert.io resources, for AP Physics 1 & 2, reported a 9.95% higher pass rate than the national average! Why should I use this AP Physics 1 score calculator? Albert.io’s AP Physics 1 score calculator was created to encourage you. Physics Notes - hard copy for purchase. AP Physics 2 Equation Sheet. Physics Reference Tables. NY Regents Reference Tables for Physics. Reading & Taking Notes from a Textbook. Taking Notes on Math Problems. Vincent Coletta: Physics Fundamentals. Physics: Principles and Problems website. AP Physics 2 Course Overview. AP Physics 1 and 2 Course.
University Physics 1 and 1A: Equation Sheet for Final
Equations
Math
x = xo + vox t + 21 ax t2
dot products:
v = vox + ax t vx2 = vox 2 + 2ax (x − xo ) x − xo = 12 (vox + vx )t acentripetal =
v2 r
P~ F = m~a ~| fs ≤ µs |N ~| fk = µk |N
~ ·B ~ = |A| ~ |B| ~ cos θ = Ax Bx + Ay By + Az Bz A
for a quadratic equation of the form √ −b ± b2 − 4ac 2 0 = ax + bx + c x= 2a
Uncertainties Addition or Subtraction: For Q = x + y − z + C1 ∆Q = ∆x + ∆y + ∆z Multiplication or Division: For Q = C1 xy/z
W =
R
F~ · d~x, for constant force W = F~ · d~
Ugrav = mgh Uspring = 12 kx2 K = 12 mv 2
∆x ∆y ∆z ∆Q = + + Q xavg yavg zavg Powers: For Q = C1 xm y n ∆Q ∆x ∆y = |m| + |n| Q xavg yavg
E = Ugrav + Uspring + K Ef inal = Einit + Wnon−cons
~rcom
P ~ri mi = P mi
For other functions, follow the general rule—pick values to make Q as large as possible then subtract the average value of Q.
Units and Constants
p~ = m~v g = 9.8 m/s2 = 32 ft/s2 J~ =
R
F~ dt = F~avg ∆t = ∆~p
1 mile = 1609 m 1 inch = 2.54 cm
GM m F~ = (−ˆ r) r2 Ug = −
GM m r
1 metric ton = 1000 kg G = 6.67 x 10−11 Nm2 /kg2
Equations
Math
x = xo + vox t + 21 ax t2
dot products:
v = vox + ax t vx2 = vox 2 + 2ax (x − xo ) x − xo = 12 (vox + vx )t acentripetal =
v2 r
P~ F = m~a ~| fs ≤ µs |N ~| fk = µk |N
~ ·B ~ = |A| ~ |B| ~ cos θ = Ax Bx + Ay By + Az Bz A
for a quadratic equation of the form √ −b ± b2 − 4ac 2 0 = ax + bx + c x= 2a
Uncertainties Addition or Subtraction: For Q = x + y − z + C1 ∆Q = ∆x + ∆y + ∆z Multiplication or Division: For Q = C1 xy/z
W =
R
F~ · d~x, for constant force W = F~ · d~
Ugrav = mgh Uspring = 12 kx2 K = 12 mv 2
∆x ∆y ∆z ∆Q = + + Q xavg yavg zavg Powers: For Q = C1 xm y n ∆Q ∆x ∆y = |m| + |n| Q xavg yavg
E = Ugrav + Uspring + K Ef inal = Einit + Wnon−cons
~rcom
P ~ri mi = P mi
For other functions, follow the general rule—pick values to make Q as large as possible then subtract the average value of Q.
Units and Constants
p~ = m~v g = 9.8 m/s2 = 32 ft/s2 J~ =
R
F~ dt = F~avg ∆t = ∆~p
1 mile = 1609 m 1 inch = 2.54 cm
GM m F~ = (−ˆ r) r2 Ug = −
GM m r
1 metric ton = 1000 kg G = 6.67 x 10−11 Nm2 /kg2