Find the velocity as it reaches the water

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Homework Help Overview

The problem involves a boy throwing two objects from a bridge into a river, one straight down and the other straight up, with the goal of finding their velocities upon reaching the water and their average velocities during flight. The context is within the subject area of kinematics, specifically dealing with free-falling objects and uniformly accelerated motion.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the appropriate kinematic formulas to use for calculating the final velocities and average velocities of the thrown objects. There are questions about initial velocities and distances involved in the problem setup.

Discussion Status

Some participants have offered hints regarding the use of kinematic equations and the nature of uniformly accelerated motion. There is an ongoing exploration of different approaches to the problem, with participants questioning the formulas and concepts needed to solve it.

Contextual Notes

Participants note the assumption of ignoring air resistance and express uncertainty about the initial conditions and the correct application of kinematic equations.

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*FREE FALLING OBJECTS*

Q. A boy stands at the edge of a bridge 20.0 m above a river
and throws a stone straight down with a speed of 12.0 m/s.
He throws another pebble straight upward with the same
speed so that it misses the edge of the bridge on the way
back down and falls into the river. For each stone find (a)
the velocity as it reaches the water and (b) the average
velocity while it is in flight.

Note: Ignore the affects of air resistance.

Can't figure it out, please help this is due monday
 
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First, please show us what you have done.
 
SORRY , yeah i shud have written that i attempted it, can't figure out which formula to use , does it mean the initial velocity for both pebbles is 20 m/s and the distance is 20m
 
a) Some hints: for the pebble thrown straight down, try to find a kinematic formula that relates initial velocity, final velocity, distance, and acceleration. For the stone thrown up, remember that when you throw something up vertically, assuming no air resistance, it returns to the ground with the same speed it was released with.
b) This is uniformily accelerated motion: what formula is used for [itex]v_{av}[/itex]?
 
okay thanks, i can't find a formula so do i take more than one equation to solve for unknowns? i dun get it
 
for part b the asnwer id -12 m/s right negative because of the direction?
 

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