A) Law of Conservation of Matter and Energy B) Law of Universal Gravitation C) Bernoulli's Principle D) Law of Conservation of Momentum
A) density and mass of the the two objects B) mass and distance between the objects C) momentum and density between the two objects D) distance between the two objects and the amount of time it takes to get from one to the other
A) Momentum = force times distance B) Momentum = mass divided by density C) Momentum = distance divided by time D) Momentum = mass times velocity
A) Law of Universal Gravitation B) Law of Conservation of Momentum C) Law of Conservation of Matter and Energy D) Bernoulli's Principle
A) gravity B) density C) momentum D) buoyant force
A) Density = mass divided by volume B) Density = mass times velocity C) Density = gravity x mass D) Density = force times distance
A) Law of Conservation of Momentum B) Law of Conservation of Matter and Energy C) Law of Universal Gravitation D) Bernoulli's Principle
A) Density B) Momentum C) Work D) Buoyancy
A) False B) True
A) Yes B) No
A) Newton B) kgxm/s2 C) Joule D) Meter-Newton
A) 5 J B) 20 N C) 5 kgxm/s2 D) 20 J |