Finding Time Taken for Particle to Travel 99 Meters Using Differential Equations

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Homework Help Overview

The problem involves a particle moving in a straight line with a velocity described by the differential equation ## dx/dt = x + 1 ##. The objective is to determine the time taken for the particle to travel 99 meters, but the lack of initial conditions complicates the solution process.

Discussion Character

  • Exploratory, Assumption checking

Approaches and Questions Raised

  • Participants discuss the necessity of initial conditions to evaluate the constant of integration, C, in the solution. There is mention of solving the problem symbolically while retaining C, and some suggest assuming initial conditions to facilitate the solution.

Discussion Status

The discussion is ongoing, with participants exploring the implications of missing initial conditions and the validity of assuming specific conditions, such as x=0 at t=0. There is recognition of the importance of reasoning in the problem-solving process.

Contextual Notes

Participants note that the problem is presented as an objective question, which may influence the expectations regarding the need for reasoning or assumptions in the solution.

Raghav Gupta
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Homework Statement


A particle moves in a straight line with velocity given by ## dx/dt = x +1 ## ( x being distance described). The time taken by the particle to describe 99 meters is?

Homework Equations


NA

The Attempt at a Solution


Getting ## ln(x+1) = t + C##
How to determine the constant value when we don't know any (x,t) point?
 
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This particular problem cannot be fully solved without initial conditions. These are used to evaluate C. Did you miss them when reading the problem?

If the question truly omits the initial conditions, there is nothing to stop you from solving the problem symbolically by retaining the constant of integration C in your solution. and express the answer in terms of C.

If you feel unhappy with retaining C as an unknown parameter, you could always assume some initial conditions - but make sure that you state explicitly what conditions you have assumed; state also why you were forced to make the assumption. No one can penalise you for displaying that you understand the problem and its deficiencies.

The obvious assumption to import is that at t=0, x=0.

Your working is correct so far.

Remember that your tutors and examiners are not interested in the answer - they know the answer and have no need to be told it by you! Rather, they are interested in seeing how you reasoned your way to the answer. If you display good reasoning, you will be awarded full marks if the statement of the question was at fault, and you will be awarded close to full marks if you missed information by careless reading but nevertheless give an accurate answer in which the missing information is displayed symbolically.
 
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No, I was not given any additional info.
By the way this was an Objective question and not subjective, so they not require the reason.
That info of taking x=0 at t= 0 looks correct to me as at time 0 particle is at rest.
Thanks, got it Marcus.
 
Raghav Gupta said:
No, I was not given any additional info.
By the way this was an Objective question and not subjective, so they not require the reason.
That info of taking x=0 at t= 0 looks correct to me as at time 0 particle is at rest.
Thanks, got it Marcus.
You probably mean the particle is at position ##x=0##.
 
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