- #1
pnstu
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- Homework Statement
- Your job is to determine when the lunar lander should fire its rocket to reduce its landing speed to below 5m/s for a safe landing. The lander will descend to the moon from an orbit 1000 meters above the surface of the moon (acceleration = 1.625 m/s^2). To avoid crashing into the surface, the lander has a rocket that can fire up to 10 seconds and provide upward acceleration at 25m/s^2. Determine when (in meters) and how long the rocket should fire to reduce the landing speed to below 5m/s.
- Relevant Equations
- AP Physics 1 Kinematic Equations
vf=vi+at
xf=xi+vi(t)+1/2(a)(t^2)
vf^2=vi^2+2a(xf-xi)
Homework Statement: Your job is to determine when the lunar lander should fire its rocket to reduce its landing speed to below 5m/s for a safe landing. The lander will descend to the moon from an orbit 1000 meters above the surface of the moon (acceleration = 1.625 m/s^2). To avoid crashing into the surface, the lander has a rocket that can fire up to 10 seconds and provide upward acceleration at 25m/s^2. Determine when (in meters) and how long the rocket should fire to reduce the landing speed to below 5m/s.
Homework Equations: AP Physics 1 Kinematic Equations
vf=vi+at
xf=xi+vi(t)+1/2(a)(t^2)
vf^2=vi^2+2a(xf-xi)
Apologies if this is posted in the wrong section
What I've gathered from the givens is that
ΔX=1000m
a(moon)= 1.625m/s2
total time the rocket can be activated=10s
a(rocket)=25ms/s2
I am completely lost on how to start this.
Homework Equations: AP Physics 1 Kinematic Equations
vf=vi+at
xf=xi+vi(t)+1/2(a)(t^2)
vf^2=vi^2+2a(xf-xi)
Apologies if this is posted in the wrong section
What I've gathered from the givens is that
ΔX=1000m
a(moon)= 1.625m/s2
total time the rocket can be activated=10s
a(rocket)=25ms/s2
I am completely lost on how to start this.
!