Terms : Hide Images
| 64033207 | v=v. + at | change in velocity | |
| 64033208 | x=x.+v.t+(.5at²) | Change in x for two dimentional motion | |
| 64033209 | v²=v.² + 2a(x-x.) | Change in velocity during acclerated motion | |
| 64033210 | ma | Force | |
| 64033211 | uN | Frictional force | |
| 64033212 | v²/r | radial acceleration | |
| 64033213 | Frsinø | Torque | |
| 64033214 | mv | Momentum (p) | |
| 64033215 | Ft | impulse | |
| 64033216 | p | impulse | |
| 64033217 | mvcosø | impulse | |
| 64033218 | (1/2)mv² | Kinetic Energy | |
| 64033219 | mgh | Potential Energy | |
| 64033220 | fdcosø | Work | |
| 64033221 | W/t | Power | |
| 64033222 | kx | Force of Spring | |
| 64033223 | (1/2)kx² | Potential energy of spring | |
| 64033224 | 2¶√(m/k) | Period of spring | |
| 64033225 | 2¶√(l/g) | Period of pendulum | |
| 64033226 | 1/f | Period (f=frequency) | |
| 64033227 | Gmm/r² | Force of gravity between two masses | |
| 64033228 | Gmm/r | Potential energy between two masses | |
| 64033229 | E/q | Force on charge by electric field | |
| 64033230 | F/q | Electric field | |
| 64033231 | qV | Potential energy of charge | |
| 64033232 | Q/V | Capacitance (C) | |
| 64033233 | pl/A | Resistance | |
| 64033234 | IR | Potential Difference (V) | |
| 64033235 | IV | Power | |
| 64033236 | I²R | Power | |
| 64033237 | C+C+C+C+C.... | Total Capacitance in parallel | |
| 64033238 | (1/C)+(1/C)+(1/C)+...=(1/Ctotal) | Total Capacitance (Series) | |
| 64033239 | R+R+R+R.... | Total Resistance (Series) | |
| 64033240 | (1/R)+(1/R)+(1/R)+...=(1/Rtotal) | Total Resistance in Parallel | |
| 64033241 | qvBsinø | Force of B field on charged particle | |
| 64033242 | BI l sinø | Force of B field on wire | |
| 64033243 | BAcosø | Magnetic Flux | |
| 64033244 | Magnetic Flux/t | Electro Magnetic Force | |
| 64033245 | Blv | Electro magnetic Force (l is length of bar, v is velocity of bar) | |
| 64033246 | P.+pgh | Pressure | |
| 64033247 | pVg | Force of Buoyancy | |
| 64033248 | Av=Av | initial Av is equal to final Av (Area and velocity initial is equivelent to final A and v) | |
| 64033249 | P+pgy+½pv² | Constant (Bernoulli's Equation) | |
| 64033250 | ∂l.T | Change in Length | |
| 64033251 | F/A | Pressure | |
| 64033252 | PV=nRT | Ideal Gass equation | |
| 64033253 | √(3RT/M) | root mean square velocity | |
| 64033254 | PV | Work | |
| 64033255 | Q+W | Total internal energy | |
| 64033256 | [W/Qhot] | Efficiency | |
| 64033257 | hf | energy | |
| 64033258 | pc | energy | |
| 64033259 | hf-work | Kinetic Energy | |
| 64033260 | h/p | Wavelength | |
| 64033261 | mc² | Change in energy | |
| 64033262 | fý (ý=wavelength) | velocity | |
| 64033263 | c/v | intdex of refraction (n) | |
| 64033264 | nsinø=nsinø | Refraction equation(by seting one side to 90 you can find the critical angle) | |
| 64033265 | n final/n initial | sin of critical angle | |
| 64033266 | (1/di)+(1/do)=1/f | Mirors and lenses | |
| 64033267 | Convex lenses f is | positive | |
| 64033268 | diverging lenses f is | negative | |
| 64033269 | R/2 (R is radius of curvature) | Focal point | |
| 64033270 | W=0 constant volume | isochoric process | |
| 64033271 | W=p(V-V.) constant pressure | isobaric process | |
| 64033272 | W=Q constant temp | Isothermal process | |
| 64033273 | Th-Tc/Th | Thermal efficiency of carnot engine | |
| 64033274 | Kinetic energy is conserved | Elastic collision | |
| 64033275 | Kinetic energy is not conserved | Inelastic collision |
