Made by Michael Friedman, Physics Teacher at Somerville High School, Somerville MA. mfriedman@k12.somerville.ma.us May be updated at https://afreeparticle.com
176
Note: At any time you can hover over the projectiles to see current x-displacement and time of flight, including after landing. The initial velocity of the one highlighted with a black dotted line is shown below. Lines are spaced 100m apart. left parenthesis, negative 40 , negative 130 , right parenthesis−40,−130
Label:
177
Made by Michael Friedman, Physics Teacher at Somerville High School, Somerville MA. mfriedman@k12.somerville.ma.us May be updated at afreeparticle.com: left parenthesis, negative 40 , negative 140 , right parenthesis−40,−140
Label:
178
179
powered by
powered by
"t"t
= 0 s
N = 9 Projectiles
Initial Velocity = 40 m/s
Initial Angle = 45°
Initial
"v" Subscript, "x" , Baselinevx
= 28.3 m/s
Initial
"v" Subscript, "y" , Baselinevy
= 28.3 m/s
Rainbow of Angles (Constant
"v"v
)
Rainbow of
"v" Subscript, "x" , Baselinevx
(Constant
"v" Subscript, "y" , Baselinevy
)
Rainbow of
"v" Subscript, "y" , Baselinevy
(Constant
"v" Subscript, "x" , Baselinevx
)
"y" Subscript, 0 , Baseliney0
= 80 m
Moon
Mars
Earth
Jupiter
"g"g
= 10 m/s/s
Zoom = 1x
Initial Velocity
28.3 m/s
40 m/s
28.3 m/s
45°
Note: At any time you can hover over the projectiles to see current x-displacement and time of flight, including after landing. The initial velocity of the one highlighted with a black dotted line is shown below. Lines are spaced 100m apart.
Made by Michael Friedman, Physics Teacher at Somerville High School, Somerville MA. mfriedman@k12.somerville.ma.us May be updated at afreeparticle.com
