Asked by jhon
a pitching machine throws a baseball at a batter with an initial velocity of 22.0 m/s at an angle of 30 degrees to the horizontal. the ball is 1.60 m above the ground when it is pitched.
a) if the batter hots the ball at the same height as it was launched how long is the ball in the air on its way to the batter?
b)how far is the ball from the pitching machine when it is hit?
c) if the batter misses the ball, where dose the ball land, relative to the pitching machine? relative to the batter?
a) if the batter hots the ball at the same height as it was launched how long is the ball in the air on its way to the batter?
b)how far is the ball from the pitching machine when it is hit?
c) if the batter misses the ball, where dose the ball land, relative to the pitching machine? relative to the batter?
Answers
Answered by
Henry
Vo = 22m/s @ 30o.
Xo = Hor. = 22*cos30 = 19.1 m/s.
Yo = Ver. = 22*sin30 = 11 m/s.
b. Range = Vo^2*sin(2A)/g.
Range = (22)^2*sin(60)/9.8 = 42.8 m. =
hor. distance.
a. Range = Xo * T = 42.8 m.
19.1 * T = 42.8
T = 2.25 s. = Time in air.
c. Tr = T/2 = 2.25/2=1.125 s.=Rise time.
hmax = ho + (Y^2-Yo^2)/2g.
hmax = 1.6 + (0-121)/-19.6 = 7.77 m.
Above gnd.
hmax = Vo*t + 0.5g*t^2 = 7.77 m.
0 + 4.9t^2 = 7.77
t^2 = 1.586
Tf = 1.26 s. = Fall time.
Dx=Xo*(Tr+Tf)=19.1*(1.125+1.26)=45.6 m.
Xo = Hor. = 22*cos30 = 19.1 m/s.
Yo = Ver. = 22*sin30 = 11 m/s.
b. Range = Vo^2*sin(2A)/g.
Range = (22)^2*sin(60)/9.8 = 42.8 m. =
hor. distance.
a. Range = Xo * T = 42.8 m.
19.1 * T = 42.8
T = 2.25 s. = Time in air.
c. Tr = T/2 = 2.25/2=1.125 s.=Rise time.
hmax = ho + (Y^2-Yo^2)/2g.
hmax = 1.6 + (0-121)/-19.6 = 7.77 m.
Above gnd.
hmax = Vo*t + 0.5g*t^2 = 7.77 m.
0 + 4.9t^2 = 7.77
t^2 = 1.586
Tf = 1.26 s. = Fall time.
Dx=Xo*(Tr+Tf)=19.1*(1.125+1.26)=45.6 m.
Answered by
Robinson
do you go to Anderson CVI? :o
Answered by
Henry
No, i've never heard of it.
Answered by
Hasan
I go to anderson :|
There are no AI answers yet. The ability to request AI answers is coming soon!
Submit Your Answer
We prioritize human answers over AI answers.
If you are human, and you can answer this question, please submit your answer.