Physics Pre-Assessment
... 15) Which of the following would NOT be considered a projectile? a) A cannonball thrown through the air b) A cannonball rolling down a slope c) A cannonball thrown straight up d) A cannonball rolling off the edge of a table 16) The horizontal component of a projectile’s velocity is independent of a) ...
... 15) Which of the following would NOT be considered a projectile? a) A cannonball thrown through the air b) A cannonball rolling down a slope c) A cannonball thrown straight up d) A cannonball rolling off the edge of a table 16) The horizontal component of a projectile’s velocity is independent of a) ...
Energy Mom Plan (red)
... Momentum & Energy Part A: Momentum & Impulse Momentum Momentum can be described as a characteristic of motion. It depends on two things: mass and velocity. More specifically momentum is the product of mass and velocity. Because it is the product of a scalar and a vector…….. ρ = mv (units: kgm/s) Imp ...
... Momentum & Energy Part A: Momentum & Impulse Momentum Momentum can be described as a characteristic of motion. It depends on two things: mass and velocity. More specifically momentum is the product of mass and velocity. Because it is the product of a scalar and a vector…….. ρ = mv (units: kgm/s) Imp ...
ENGPHY1 QUIZ 3 • Kinetic Energy and Work • Potential Energy and
... 13. A force on a particle is conservative if: A. its work equals the change in the kinetic energy of the particle B. it obeys Newton’s second law C. it obeys Newton’s third law D. its work depends on the end points of every motion, not on the path between E. it is not a frictional force 14. Two part ...
... 13. A force on a particle is conservative if: A. its work equals the change in the kinetic energy of the particle B. it obeys Newton’s second law C. it obeys Newton’s third law D. its work depends on the end points of every motion, not on the path between E. it is not a frictional force 14. Two part ...
Lecture 4: Mechanics Review 2
... It uses a type of engine called an IPD (Ion Propulsion Drive) which can put out a thrust force 5.6 x 10-2 N. The probe (470 kg) started the engine when the speed was 275 m/s and has been propelled for 2.42 x 106 km so far. What is the speed of the probe now? 470 kg F = 5.6 x 10-2 N vi = 275 m/s ...
... It uses a type of engine called an IPD (Ion Propulsion Drive) which can put out a thrust force 5.6 x 10-2 N. The probe (470 kg) started the engine when the speed was 275 m/s and has been propelled for 2.42 x 106 km so far. What is the speed of the probe now? 470 kg F = 5.6 x 10-2 N vi = 275 m/s ...
