A large fish hangs from a spring balance supported from the roof of an elevator. If...
A large fish hangs from a spring balance supported from the roof of an elevator. If the elevator has an upward acceleration of 2.45 m/s2 and the balance reads 60.0 N , what is the true weight of the fish?
SET UP
Draw a sketch of the physical situation, and identify the moving
object or objects to which you will apply Newton’s 2nd law.
Draw a free-body diagram for each chosen object, showing all the
forces acting on that object. Label the magnitudes of unknown
forces with algebraic symbols. Usually, one of the forces will be
the object’s weight; it is generally best to label this as
mg.
Show your coordinate axes explicitly in each free-body diagram, and
then determine components of forces with reference to these axes.
If you know the direction of the acceleration, it is usually best
to take that direction as one of the axes.
SOLVE
Write the equations for Newton’s 2nd law in component form:
∑Fx=max and ∑Fy=may.
If more than one object is involved, repeat step 4 for each
object.
REFLECT
Check particular cases or extreme values of quantities, when
possible, and compare the results for these particular cases with
your intuitive expectations. Ask yourself, "Does this result make
sense?" Think about what you have learned from the problem that you
can apply to other problems in the future.
For which of the following object(s) will you need to draw a free-body diagram to solve the problem?
For which of the following object(s) will you need to draw a free-body diagram to solve the problem?
| the elevator only |
| the elevator and the spring balance |
| the spring balance only |
| the fish only |
| the fish and the spring balance |
| the fish, the elevator, and the spring balance |
Homework Answers
Add Answer to:
A large fish hangs from a spring balance supported from the roof
of an elevator. If...
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