What Velocity Does the Sled Reach After 5 Seconds?

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Homework Help Overview

The discussion revolves around a physics problem related to Newton's Laws of motion, specifically involving forces acting on a sled being pushed by a boy. The problem presents a scenario where a force is applied, and friction is considered, with the goal of determining acceleration, final velocity, and distance traveled over a specified time period.

Discussion Character

  • Exploratory, Assumption checking

Approaches and Questions Raised

  • Participants discuss the application of relevant formulas and question how to determine the initial velocity in the context of the problem. There is an exploration of the implications of assuming the initial velocity is zero.

Discussion Status

The conversation is ongoing, with some participants providing formulae and others questioning the assumptions made regarding initial conditions. There is no explicit consensus yet, but the dialogue is focused on clarifying the setup of the problem.

Contextual Notes

The original poster has requested step-by-step solutions, which is noted as a point of contention regarding the forum's policy on homework assistance.

Phyzor
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OK I'm stuk on a physics question involving Newton's Laws of motion.

Question:

Boy gives his sister ride on sled by exerting force of 300 N[E].
Frictional resistance amounts to 200 N. If sister and sled have combined mass of 50 kg, and if boy starts from rest and pushes for 5 sec., find:

a) the sled's acceleration
b) velocity attained by sled in 5 sec.
c) distance traveled by sled in 5 sec.


PLZ try to help and show step by step solutions

Reply ASAP thanx:smile:
 
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It's not the policy here to do peoples homewrok, but I'll give you the relevant formulae:

F = ma, v = u + at, s = ½(u + v)t

F is force, m is mass, a is acceleration ,v is final velocity, u is intial velocity, s is displacemnet and t is time.
 
Reply

Wait, how do we find initial velocity?

Thanx for help.
 
We don't. But since the problem asked for the "velocity attained" (i.e. the increase in velocity), we can take it to be 0- that way the final velocity WILL be the increase in velocity.
 

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