Answer:
The answer is a2 = 4.48 m/s2
Explanation:
Let´s start with the equations we know:
- [tex]v_{f} = v_{o} +at[/tex]
- [tex]t_{1} =t_{2} =t[/tex]
Where:
- [tex]v_{f}[/tex] => Final velocity
- [tex]v_{o}[/tex] => Initial velocity
- a => acceleration
- t => time
Now, let´s divide the problem in Stage 1 and 2 and get equations for each stage:
Stage 1 knowns and unknowns:
- [tex]v_{1o} =0\\v_{1f} = ?\\a_{1} =2.8[\frac{m}{s^{2} }] \\t_{1} =?[/tex]
Stage 1 equation:
- [tex]v_{1f} = v_{1o} + a_{1} t[/tex]
- [tex]v_{1f}= 0+2.8t\\v_{1f}=2.8t[/tex]
Stage 2 knowns and unknowns:
- [tex]v_{2o} =v_{1f} \\v_{2f}=2.6v_{1f} \\a_{2} =?\\t_{2}=?[/tex]
Stage 2 equation:
- [tex]v_{2f} = v_{2o} +a_{2}t[/tex]
- [tex]2.6v_{1f} =v_{1f} +a_{2}t\\2.6v_{1f} -v_{1f} = a_{2}t\\1.6v_{1f} = a_{2}t[/tex]
Now we can substitute the resultant equation from stage 1 into stage´s 2 equation:
- [tex]1.6(2.8t) = a_{2}t[/tex]
We can see "t" is on both sides, so it cancels out and we are left with:
[tex]a_{2} = 4.48 [\frac{m}{s^{2} } ][/tex]
