1001 Questions in MCAT Physics |
From inside the book
Results 1-3 of 38
Page 30
... zero . B. Only the torque about any part of the object must be zero . C. The torque about any point on the object or any point in space must be zero . D. The object must not be spinning . 301. If F equals 10 N , which of the following ...
... zero . B. Only the torque about any part of the object must be zero . C. The torque about any point on the object or any point in space must be zero . D. The object must not be spinning . 301. If F equals 10 N , which of the following ...
Page 110
... zero , and the final is 40 m / s . The average must be exactly in the middle which is 20 m / s . 20 m / s for 4 seconds gives 80 m . 38. B is correct . x = 1⁄2at . After one second the particle has gone 5 m . This is found by finding ...
... zero , and the final is 40 m / s . The average must be exactly in the middle which is 20 m / s . 20 m / s for 4 seconds gives 80 m . 38. B is correct . x = 1⁄2at . After one second the particle has gone 5 m . This is found by finding ...
Page 124
... zero , will their kinetic energies be zero . 324. D is correct . Ideal projectile motion is independent of mass , so both will have the same velocity at all times . Thus , only when their velocities are zero , will their kinetic ...
... zero , will their kinetic energies be zero . 324. D is correct . Ideal projectile motion is independent of mass , so both will have the same velocity at all times . Thus , only when their velocities are zero , will their kinetic ...
Common terms and phrases
½at acceleration air resistance angle approximately capacitor center of gravity clockwise torque collision conserved constant velocity correct created D is correct decrease density diagram displacement Doppler Effect downward elastic collision electric field equal and opposite equation equilibrium factor following is true following represents force F frequency frictional force frictionless graph gravitational force greater Hooke's law horizontal velocity ideal fluid increases index of refraction inertia initial velocity kg ball moving kg block kg mass kg/m³ kinetic energy length lever arm light m/s² magnetic field maximum height MCAT mgsine minimum force modulus molecules momentum negative object particle perpendicular plane positively charged potential energy pressure projectile proton question radius remains constant resistor rope rotational shown simple harmonic motion slides sound wave speed spring static friction surface tension torque travels true concerning upward vector vertical velocity voltage volume wavelength wire Young's modulus zero