1 EXPERIMENT 5 CONSERVATION OF LINEAR MOMENTUM
... Linear momentum is a vector quantity because it equals the product of a scalar quantity m and a vector quantity v. Its direction is along v, it has dimensions ML/T, and its SI unit is kg · m/s. Using Newton’s second law of motion, we can relate the linear momentum of a particle to the resultant forc ...
... Linear momentum is a vector quantity because it equals the product of a scalar quantity m and a vector quantity v. Its direction is along v, it has dimensions ML/T, and its SI unit is kg · m/s. Using Newton’s second law of motion, we can relate the linear momentum of a particle to the resultant forc ...
Ch 7 Impulse and Momentum
... 3rd law that forces always occur in pairs (action-reaction), so when two objects interact the forces they apply on each other must be equal in magnitude and opposite in direction. Since the forces are of equal magnitude and they act over the same amount of time, the impulse on each object must also ...
... 3rd law that forces always occur in pairs (action-reaction), so when two objects interact the forces they apply on each other must be equal in magnitude and opposite in direction. Since the forces are of equal magnitude and they act over the same amount of time, the impulse on each object must also ...
Lesson Plan Format
... 8.6 Vectors GOAL: I will be able to: 1. find the magnitude and direction of a vector. ...
... 8.6 Vectors GOAL: I will be able to: 1. find the magnitude and direction of a vector. ...
