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A summary of the take-home messages of Unit 2 on Constant Velocity. This infographic was made on the Avery template 5164 for Word. It requires 4" x 3.33" shipping labels for print.
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Constant Velocity Model From a position-‐time graph, an object's position can be predicted based on its starting position, velocity, and time interval of travel
Buggy Lab
v = ΔxΔt
x = vt + xi
v = viWhen velocity is constant, a graph of velocity v. time will be a horizontal line and the velocity at any time will be equal to the starting velocity
Δx = vt
The object's displacement is equal to the area under the curve
slope =x f − xit f − ti
Constant Velocity Model From a position-‐time graph, an object's position can be predicted based on its starting position, velocity, and time interval of travel
Buggy Lab
v = ΔxΔt
x = vt + xi
v = viWhen velocity is constant, a graph of velocity v. time will be a horizontal line and the velocity at any time will be equal to the starting velocity
Δx = vt
The object's displacement is equal to the area under the curve
slope =x f − xit f − ti
Constant Velocity Model From a position-‐time graph, an object's position can be predicted based on its starting position, velocity, and time interval of travel
Buggy Lab
v = ΔxΔt
x = vt + xi
v = viWhen velocity is constant, a graph of velocity v. time will be a horizontal line and the velocity at any time will be equal to the starting velocity
Δx = vt
The object's displacement is equal to the area under the curve
slope =x f − xit f − ti
Constant Velocity Model From a position-‐time graph, an object's position can be predicted based on its starting position, velocity, and time interval of travel
Buggy Lab
v = ΔxΔt
x = vt + xi
v = viWhen velocity is constant, a graph of velocity v. time will be a horizontal line and the velocity at any time will be equal to the starting velocity
Δx = vt
The object's displacement is equal to the area under the curve
slope =x f − xit f − ti
Constant Velocity Model From a position-‐time graph, an object's position can be predicted based on its starting position, velocity, and time interval of travel
Buggy Lab
v = ΔxΔt
x = vt + xi
v = viWhen velocity is constant, a graph of velocity v. time will be a horizontal line and the velocity at any time will be equal to the starting velocity
Δx = vt
The object's displacement is equal to the area under the curve
slope =x f − xit f − ti
Constant Velocity Model From a position-‐time graph, an object's position can be predicted based on its starting position, velocity, and time interval of travel
Buggy Lab
v = ΔxΔt
x = vt + xi
v = viWhen velocity is constant, a graph of velocity v. time will be a horizontal line and the velocity at any time will be equal to the starting velocity
Δx = vt
The object's displacement is equal to the area under the curve
slope =x f − xit f − ti
