:Disp "Acceleration is directly proportional to Net Force"
:Disp "Double Mass:Tension will double accel stays the same"
:Disp "Block is pulled by spring scale: m=weight/g a=F/m"
:Disp "Box of mass m slides up ramp with v0: -f-mgsin=ma"
:Disp "System shown above is released from rest: 3.3"
:Disp "Two blocks of masses: F=m2a=1"
:Disp "Atwood center of mass: COM:a D and to R:2g/3"
:Disp "Atwoods machine is set up by two suspending blocks: m3g-m2g=(m2+m3)a"
:Disp "Two blocks are connected by a rope larger: F or tension: F"
:Disp "Stacks of boxes in elevator: M(a+g)"
:Disp "Potatoe and dart: equal greater equal"
:Disp "Box of mass m is on a rough inclined plane: Fcos-mgsin0-f"
:Disp "The graph above shows velocity v as function of time t: FT less than Ff less than 2FT"
:Disp "Blocks A and B of masses mA and mB are at rest: mcg"
:Disp "A box of mass m hangs from massless strings: horizontal Tsin0 verti: mg-Tcos0"
:Disp "Three blocks are connected by strings: T1-T2=m2a"
:Disp "Blocks A and B of masses m and 2m: F1 is greater than F2"
:Disp "Friction MCQs:"
:Disp "6 kg block pushed against wall by 100N: Kinetic friction acts downward on block"
:Disp "The force diagram above shows a box accelerating: a=(Tcos0-mew(Mg+Tsin0))/M"
:Disp "free body diagram for 5 kg box on a rough surface being pulled: T=mewmg/cos0+μsin0"
:Disp "Cart pulled on track: track titled downward"
:Disp "Angle of ramp: slope of graph of position as function of square of time"
:Disp "A block of mass 2kg slides along a horizontal tabletop: FN+vertical applied force x coefficient"
:Disp "Two section inclined plane figure: If the block is sliding up section 2 2mukMgcos0"
:Disp "Two section: If the block is at rest on section 1: Mgsin0"
:Disp "An object is released: initially 0 then increases until equal to force of gravity"
:Disp "A block of mass m1 collides with a block of mass m2: mewm2g/(m1+m2)"
:Disp "A block rests on a flat plane inclined at an angle of 30:1/rad3 tan0"
:Disp "A horizontal force F pushes a block of mass m against a vertical wall: mg/mew"
:Disp "Suitcase pulled: use vertical to find normal force use horizontal to find friction solve for mew"
:Disp "Block and launcher exert equal forces"
:Disp "B1 and B2 connected by a light string:mewA greater than mewB Net increases"
:Disp "What propels runnner forward: friction exerted by the ground on the person"
:Disp "front-wheel drive car: forward on the front tires backward on rear"
:Disp "Battle ship: Ship B lower trajectory"
:Disp "nail is placed on board: mewk is nearly equal to mews"
:Disp "box moves with constant speed to the right: F1=F2(sin0/cos0)"
:Disp "The magnitude of applied force: find a using kinematics Fapp=mewkFN+ma"