How Do You Calculate Distance in a Two-Stage Lift Journey Using SUVAT Equations?

In summary, thelift ascends from rest with an accceleration of 0.5ms before slowing with an acceleration of -0.75ms for the next stop. If the total journey time is 10 secs, what is the distance between the two stops?
  • #1
NinaL
5
0
I have a mechanics exam coming up, and I'm going through a textbook answering questions. I'm really stuck on the following:

A lift ascends from rest with an accceleration of 0.5ms before slowing with an acceleration of -0.75ms for the next stop. If the total journey time is 10 secs, what is the distance between the two stops?


The thing is, I know that you have to use the SUVAT equations (displacement, initial velocity, final velocity, time) but I have no idea what to do with this. Why are they giving me two accelerations?

I've tried splitting the question into two parts, but i don't know the time traveled at each acceleration.

Please help! This is for my AS maths exam, on Jan the 12th, and with my luck, this kind of thing will come up, just because I'm not prepared for it!. :)
Thank you!
 
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  • #2
Treat the motion in two parts. In part one, the lift goes from a speed of 0 to V in [itex]T_1[/itex] seconds; in part two, it goes from V to 0 in [itex]T_2[/itex] seconds. Figure out [itex]T_1[/itex] and [itex]T_2[/itex]. (Hint: use [itex]V_f = V_i + aT[/itex].) Then use the times to figure out the distance traveled.
 
  • #3
Doc Al said:
(Hint: use [itex]V_f = V_i + aT[/itex].) .

Thank you.

I'm sorry, but I'm not feeling particularly intelligent today, or perhaps I've just called it something different, but could you explain the above formula?

Thank you ever so much!
 
  • #4
Since it started from rest V initial = 0m/s
So first Velocity V= 0m/s + (0.5m/s^2)(t1)
Second final velocity since it stoped
0m/s = V(initial) + (-0.75m/s^2)(t2 = 10s)
and then you plug first Velocity in the second equation.

0m/s = [0m/s + (0.5m/s^2)(t1)] + (-0.75m/s^2)(t2 = 10s)
 
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  • #5
[itex]V_f = V_i + aT[/itex] is one of the basic kinematic formulas describing uniformly accelerated motion. It tells you how to calculate the final speed ([itex]V_f[/itex]) a uniformly accelerated object will attain after T seconds given the initial speed ([itex]V_i[/itex]).

Hints: In part one, the initial speed is 0, call the final speed V. In part two, the initial speed is V, the final speed is zero. Now apply that equation for each part, and make use of the fact that [itex]T_1 + T_2 = 10[/itex] seconds. You should be able to solve for the two times.
 
  • #6
Thanks a lot, I finally figured out how to do it! :)

On the subject of Mechanics though, does anyone know any good websites that feature revision material, explanations etc?

Thank you!
 

FAQ: How Do You Calculate Distance in a Two-Stage Lift Journey Using SUVAT Equations?

What is the AS maths exam mechanics?

The AS maths exam mechanics is a section of the mathematics A-level exam that focuses on the principles and laws of motion, forces, and energy. It covers topics such as kinematics, vectors, Newton's laws of motion, and work and energy.

What topics are covered in the AS maths exam mechanics?

The AS maths exam mechanics covers topics such as kinematics, vectors, Newton's laws of motion, work and energy, and circular motion. It also includes applications of these principles to real-world scenarios.

What is the format of the AS maths exam mechanics?

The AS maths exam mechanics is typically a written exam consisting of multiple-choice questions, short answer questions, and longer, problem-solving questions. Some exams may also include practical or experimental components.

How can I prepare for the AS maths exam mechanics?

To prepare for the AS maths exam mechanics, it is important to thoroughly study and understand the principles and equations covered in class. Practice solving various types of problems and familiarize yourself with the format of the exam. It may also be helpful to seek out additional resources, such as practice exams and study guides.

What are some common mistakes students make in the AS maths exam mechanics?

Common mistakes students make in the AS maths exam mechanics include not fully understanding the principles and equations, making calculation errors, and not showing all steps in their solutions. It is important to carefully read and understand the question, show all work, and double-check calculations to avoid these mistakes.

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