Document
... Schematics of the state-to-state chemistry for neutrals e + H2(v=0) e +H2(v=1,…,5) e + H2(v=1,…,5) e +H2(v=0) H2(v) + H2(w) H2(v-1) + H2(w+1) H2(v) + H2 H2(v-1) + H2 H2(v) + H2 H2(v+1) + H2 H2(v) + H H2(w) + H e + H2(v=0,…,14) H + He + H2(v) e + H2(v’) (via b1u+, c1u) e + H2 e +2 ...
... Schematics of the state-to-state chemistry for neutrals e + H2(v=0) e +H2(v=1,…,5) e + H2(v=1,…,5) e +H2(v=0) H2(v) + H2(w) H2(v-1) + H2(w+1) H2(v) + H2 H2(v-1) + H2 H2(v) + H2 H2(v+1) + H2 H2(v) + H H2(w) + H e + H2(v=0,…,14) H + He + H2(v) e + H2(v’) (via b1u+, c1u) e + H2 e +2 ...
Recitation Week 3
... Which is pretty fast (but not relativistic). Problem 58. (a) Calculate the potential energy of a system of two small spheres, one carrying a charge of 2.00 µC and the other a charge of −3.50 µC, with their centers separated by a distance of 0.250 m. Assume zero potential energy when the charges are ...
... Which is pretty fast (but not relativistic). Problem 58. (a) Calculate the potential energy of a system of two small spheres, one carrying a charge of 2.00 µC and the other a charge of −3.50 µC, with their centers separated by a distance of 0.250 m. Assume zero potential energy when the charges are ...
lec02
... decreasing speed until it achieves, just for an instant, a speed of zero. Then it starts moving leftward at an ever increasing speed. b) It moves rightward at an ever increasing speed. ...
... decreasing speed until it achieves, just for an instant, a speed of zero. Then it starts moving leftward at an ever increasing speed. b) It moves rightward at an ever increasing speed. ...
Physics Momentum and Collisions Section Review Sheet
... 12) A rifle fires a bullet…. Prior to being fired, both objects (the bullet and the gun) were at rest….. which receives a greater change in velocity? A greater change in momentum? A greater impulse? A greater force? What was the total initial momentum of the system 13) A 1 kg object is dropped from ...
... 12) A rifle fires a bullet…. Prior to being fired, both objects (the bullet and the gun) were at rest….. which receives a greater change in velocity? A greater change in momentum? A greater impulse? A greater force? What was the total initial momentum of the system 13) A 1 kg object is dropped from ...
KINEMATICS
... of Energy Law Newton’s First Law of Motion Newton’s Second Law of Motion Kinetic Energy ...
... of Energy Law Newton’s First Law of Motion Newton’s Second Law of Motion Kinetic Energy ...
Solutions
... Again, what’s going on physically? Within the plates, there is a force on the drop, which will cause a deflection. Also, this force changes the drop’s velocity. Once it exits the field then the drop continues in the same direction as it had upon exiting the field. (there are no forces to deflect it. ...
... Again, what’s going on physically? Within the plates, there is a force on the drop, which will cause a deflection. Also, this force changes the drop’s velocity. Once it exits the field then the drop continues in the same direction as it had upon exiting the field. (there are no forces to deflect it. ...
Ch. 9A AP Set
... A 4-kilogram mass has a speed of 6 meters per second on a horizontal frictionless surface, as shown above. The mass collides head-on and elastically with an identical 4-kilogram mass initially at rest. The second 4kilogram mass then collides head-on and sticks to a third 4-kilogram mass initially at ...
... A 4-kilogram mass has a speed of 6 meters per second on a horizontal frictionless surface, as shown above. The mass collides head-on and elastically with an identical 4-kilogram mass initially at rest. The second 4kilogram mass then collides head-on and sticks to a third 4-kilogram mass initially at ...
