Respuesta :
Answer:
The speed in the first point is: 4.98m/s
The acceleration is: 1.67m/s^2
The prior distance from the first point is: 7.42m
Explanation:
For part a and b:
We have a system with two equations and two variables.
We have these data:
X = distance = 60m
t = time = 6.0s
Sf = Final speed = 15m/s
And We need to find:
So = Inicial speed
a = aceleration
We are going to use these equation:
[tex]Sf^2=So^2+(2*a*x)[/tex]
[tex]Sf=So+(a*t)[/tex]
We are going to put our data:
[tex](15m/s)^2=So^2+(2*a*60m)[/tex]
[tex]15m/s=So+(a*6s)[/tex]
With these equation, you can decide a method for solve. In this case, We are going to use an egualiazation method.
[tex]\sqrt{(15m/s)^2-(2*a*60m)}=So[/tex]
[tex]15m/s-(a*6s)=So[/tex]
[tex]\sqrt{(15m/s)^2-(2*a*60m)}=15m/s-(a*6s)[/tex]
[tex][\sqrt{(15m/s)^2-(2*a*60m)}]^{2}=[15m/s-(a*6s)]^{2}[/tex]
[tex](15m/s)^2-(2*a*60m)}=(15m/s)^{2}-2*(a*6s)*(15m/s)+(a*6s)^{2}[/tex]
[tex]-120m*a=-180m*a+36s^{2}*a^{2}[/tex]
[tex]0=120m*a-180m*a+36s^{2}*a^{2}[/tex]
[tex]0=-60m*a+36s^{2}*a^{2}[/tex]
[tex]0=(-60m+36s^{2}*a)*a[/tex]
[tex]0=a1[/tex]
[tex]\frac{60m}{36s^{2}} = a2[/tex]
[tex]1.67m/s^{2}=a2[/tex]
If we analyze the situation, we need to have an aceleretarion greater than cero. We are going to choose a = 1.67m/s^2
After, we are going to determine the speed in the first point:
[tex]Sf=So+(a*t)[/tex]
[tex]15m/s=So+1.67m/s^2*6s[/tex]
[tex]15m/s-(1.67m/s^2*6s)=So[/tex]
[tex]4.98m/s=So[/tex]
For part c:
We are going to use:
[tex]Sf^2=So^2+(2*a*x)[/tex]
[tex](4.98m/s)^2=0^2+(2*(1.67m/s^2)*x)[/tex]
[tex]\frac{24.80m^2/s^2}{3.34m/s^2}=x[/tex]
[tex]7.42m=x[/tex]
