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Test your basic knowledge |
GRE Physics
Start Test
Study First
Subjects
:
gre
,
science
,
physics
Instructions:
Answer 50 questions in 15 minutes.
If you are not ready to take this test, you can
study here
.
Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.
This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.
1. Springs in series/parallel
In Zeeman effect - the contribution of electron spin to total angular momentum means that it isn'T always three lines and they are not always equally spaced.
dU = 0 ? dS = ?dW/T
1/ne - where n is charge carrier density
Series: 1/k_eq = 1/k_1 + 1/k_2; Parallel: k_eq = k_1 + k_2
2. SR: Spacetime Interval
Isentropic
ds² = (c*dt)² - ?(x_i)²
µ0 I / 2R
µ=s^2
3. Magnetic field due to a segment of wire
B = µ0 I (sin(?1)-sin(?2))/(4pr) r = distance from point
1/f = (n-1)(1/R1 - 1/R2) if both positive - they are convex - concave
?~1/T
V = V0 + V0 a ?T
4. EM: Electromagnetic inertia
Faraday/Lenz: current inducted opposes the changing field
dQ = dW +dU
P² ~ R³
KE = 1/2 * µ (dr/dt)² L = µ r x v
5. Wein'S displacement law for blackbodies (? and T)
North to south; Earth has S magnetic pole at the N geographic pole and vice versa.
?_max = b/T
J = E s - s = Conductivity - E = Electric field
F_f = µ*F_N
6. Atom: Positronium Reduced Mass
µ = m_e/2
Int ( A . dr) = Int ( del x A) dSurface
Asin(?) = m?
?s = 0 - ?l = ±1
7. Lensmaker Equation - Thin Lens
1/f = (n-1)(1/R1 - 1/R2) if both positive - they are convex - concave
L = T - V dL/dq = d/dt dL/dqdot
V(r) + L²2/2mr²
F = I L X B
8. Lab: Precision of Measurements
1s² - 2s² 2p6 - 3s² 3p6 3d¹°
Measurements close to mean
When you apply a uniform electric field - it induces a dipole moment and interacts with it - and that effect depends on |mj |. So if j is an integer - splits (asymmetrically) into j+1 levels - and if j is a half integer - splits (asymmetrically) into
ih_barL_z
9. Biot-Savart law
V = -L di/dt
KE = 1/2 * µ (dr/dt)² L = µ r x v
DB = ( µ_0 I/(4Pi) ) dl(cross)rhat/r^2
P/A = s T^4
10. Thermo: Average Total Energy
E = s/e_0
?_max = b/T
(° of Freedom)kT/2
W_A < W_I
11. Internal Energy of an Ideal Gas
(3/2) n R ?t
IR + Ldi/dt = 0 - I = I0e(-tL/R) Work = 1/2 L I0^2
ih_barL_z
1/f = (n-1)(1/R1 - 1/R2) if both positive - they are convex - concave
12. Center of Mass: Kinetic Energy & Angular Momentum
J/(ne) n: atom density
?mv
Isentropic
KE = 1/2 * µ (dr/dt)² L = µ r x v
13. Hall Coefficient
Always Real
1/ne - where n is charge carrier density
(3/2) n R ?t
PdV +dU
14. Perpendicular axis theorem
F = R/2
?~T
I_z = I_x + I_y (think hoop symmetry)
U - ts = -tlog(Z)
15. Quant: Expectation Value
F = f* (c+v_r)/(c+v_s)
<?|O|?>
A[B -C] + [A -C]B
E²-p²c²
16. Energy in a Capacitor
I = I_cm + (1/2)m d^2
.5 CV²
P² ~ R³
Interference: (m+.5)? = d sin(?) Diffraction: m? = w sin(?)
17. EM: AC Resonance
1. Heat is energy 2. Entropy never decreases 3. Entropy approaches a constant value as t -> 0...
? = 5/3
F_f = µ*F_N
X_L = X_C or X_total = 0
18. Bernoulli Equation
DW = P dV
P +1/2 ? v² + ?gh = Constant
In Zeeman effect - the contribution of electron spin to total angular momentum means that it isn'T always three lines and they are not always equally spaced.
Q = CVexp(-t/RC)
19. Bar magnets -- direction of B field lines - earth'S B field
µ = Current * Area T = µ x B
V = V0 + V0 a ?T
North to south; Earth has S magnetic pole at the N geographic pole and vice versa.
L = T - V dL/dq = d/dt dL/dqdot
20. Focal point of mirrror with curvature
F = R/2
Sin(?) = ?/d
qvb = mv²/R
Opposing charge induced upon conductor
21. Doppler shift for light
F = f* (c+v_r)/(c+v_s)
X_C = 1/(i?C)
V(r) + L²2/2mr²
? = ?_0 Sqrt[(1+v/c)/(1-v/c)]
22. Current in resistor in RC circuit
? = h/mv
? = 5/3
I = V/R exp(-t/RC)
4H + 2e- ? He +2? + 6?
23. Lagrangian and Lagrange'S equation
S = (hbar/2) s ;with S = S_x xhat + S_y yhat + S_z zhat -s = s_x xhat + s_y yhat + s_z zhat
L = T - V dL/dq = d/dt dL/dqdot
Asin(?) = m?
<T> = 1/2 * <dV/dx>
24. Inductance of Solenoid
M? = 2dsin(?)
Always Real
L = µ N² A / l : N = number of turns - A = cross sectional area -l = length
1s² - 2s² 2p6 - 3s² 3p6 3d¹°
25. EM: Reactance of Inductor
X_L = i?L
T = I?²/2
µ0 I / 2R
Exponentially decreasing radial function
26. EM: Parallel Capacitance
P = µ_0 q^2 a^2/(6Pi c); No radiation along the axis of acceleration
C_eq = ?C_i
In Zeeman effect - the contribution of electron spin to total angular momentum means that it isn'T always three lines and they are not always equally spaced.
IR + Ldi/dt = 0 - I = I0e(-tL/R) Work = 1/2 L I0^2
27. Stark Effect
1/2 CV²
When you apply a uniform electric field - it induces a dipole moment and interacts with it - and that effect depends on |mj |. So if j is an integer - splits (asymmetrically) into j+1 levels - and if j is a half integer - splits (asymmetrically) into
Z_C + Z_L = 0. Occurs when ?=1/Sqrt[L C]
V = -L di/dt
28. Entropy (# of states - and in terms of other thermo quantities)
S = k ln[O] ; dS = dQ/T
µ0 I1I2 / (2pd)
Z²/n² (m_red/m_elec)
CdV/dt + V/R = 0 V(t) = V0 exp(-t/RC) I(t) = I(0) exp(-t/RC)
29. Bragg'S Law of Reflection
Sin(?) = ?/d
U = t^2 d/dt (logZ)
µ=s^2
M? = 2dsin(?)
30. Energy for orbits: Hyperbole - Ellipse - Parabola - Circle
Dp/dt = L / (t ?V)
E = Vmin : circle - E = 0 : parabola - E<0 : el - E>0 : h
F = s * T4
1/vLC
31. A reversible process stays..
F = I L X B
Infinitely close to equilibrium at all times
u dm/dt
D/dt (.5*r^2 d?/dt) = 0 - r(?) = a(1-e²)/(1+ecos(?)) - T²aA³
32. Magnetic Field For Current in Long Wire
µ0 I / 2pR
(3/2) n R ?t
V(r) + L²2/2mr²
?_max = b/T
33. Atom: Bohr Theory Ionization
E = Z²*E1
Let w_i = 1/s_i^2;x_wav = S(w_i x_i) / Sw_i - s_xwav = 1/Sw_i
V = V0 + V0 a ?T
L = T - V dL/dq = d/dt dL/dqdot
34. Bohr Model: Energy
?max = 2.898 x 10 -³ / T
Interference: (m+.5)? = d sin(?) Diffraction: m? = w sin(?)
Z²/n² (m_red/m_elec)
u dm/dt
35. Thermo: Isothermal
Let w_i = 1/s_i^2;x_wav = S(w_i x_i) / Sw_i - s_xwav = 1/Sw_i
Infinitely close to equilibrium at all times
T^2 = k R^3 - k=constant
dU = 0 ? dS = ?dW/T
36. Magnetic Field of a long solenoid
B = µ0 I (sin(?1)-sin(?2))/(4pr) r = distance from point
B = µ0 I n
dU = 0 ? dS = ?dW/T
ds² = (c*dt)² - ?(x_i)²
37. Magnetic Field Through Ring
F = mv²/r
Interference: (m+.5)? = d sin(?) Diffraction: m? = w sin(?)
µ0 I / 2R
? = 1.22?/D
38. Astro: p-p Chain
4H + 2e- ? He +2? + 6?
Faraday/Lenz: current inducted opposes the changing field
DW/dq
M? = 2dsin(?)
39. Atom: Orbital Config
I ' = I cos²(?)
Z_c = -i/(?C) ; Z_L = i ? L
1s² - 2s² 2p6 - 3s² 3p6 3d¹°
<T> = -<V>/2
40. Thermo: Partition Function
Q = U + W Q = heat in system - U = total energy in system - W = work done by gas
?scl = +/-1;?m = 0 - +/-1;?S_tot = 0;(?j = ?scl + ?S_tot)
(3/2) n R ?t
Z = ?g_i*exp(-E/kT)
41. Stoke'S Theorem
P(s) = (1/Z) Exp[-E(s)/(k T)] Z = S_s(Exp[-E(s)/(k T)])
v(mean)
Int ( A . dr) = Int ( del x A) dSurface
A[B -C] + [A -C]B
42. Relativistic length contraction
Measurements close to true value
L = L_0 Sqrt[1-v^2/c^2]
? = h/p
P(s) = (1/Z) Exp[-E(s)/(k T)] Z = S_s(Exp[-E(s)/(k T)])
43. Force on a wire in magnetic field
F = I L X B
P = µ_0 q^2 a^2/(6Pi c); No radiation along the axis of acceleration
Isentropic
E = Vmin : circle - E = 0 : parabola - E<0 : el - E>0 : h
44. Rotation matrix (2x2)
Infinitely close to equilibrium at all times
Cos[?] Sin[?] -Sin[?] Cos[?]
E = Vmin : circle - E = 0 : parabola - E<0 : el - E>0 : h
L = µ N² A / l : N = number of turns - A = cross sectional area -l = length
45. Solid: Resistivity of Semi-Conductor
Interference: (m+.5)? = d sin(?) Diffraction: m? = w sin(?)
H = T + V;qdot_i = dH/dp_i - pdot_i = dH/dq_i
?~1/T
<T> = -<V>/2
46. Partition Function
? exp(-e/t)
Asin(?) = m?
<?|O|?>
P² ~ R³
47. 3 Laws of Thermo
1. Heat is energy 2. Entropy never decreases 3. Entropy approaches a constant value as t -> 0...
C_eq = ?C_i
?scl = +/-1;?m = 0 - +/-1;?S_tot = 0;(?j = ?scl + ?S_tot)
W_A < W_I
48. Virial Theorem
KE = 1/2 * µ (dr/dt)² L = µ r x v
<T> = 1/2 * <dV/dx>
(3/2) n R ?t
Series: 1/k_eq = 1/k_1 + 1/k_2; Parallel: k_eq = k_1 + k_2
49. Compton Scattering
Opposing charge induced upon conductor
?? = h/mc * (1-cos(?))
Measurements close to mean
(° of Freedom)kT/2
50. Planck Radiation Law
qvb = mv²/R
Hbar*?³/(p²c³exp(hbar?/t)-1)
(° of Freedom)kT/2
Always Real
