Homework and binder directions:

1.) CH. TITLE 2.) SECT. TITLE 3.)VOCAB (MUST HAVE #'S) 4.) ANSWERS TO SECT. ASSESS. Q'S


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MONDAY 11/28 - FRIDAY 12/2

MONDAY- CH.8 VOCAB & KEY TERM QUIZ!
(You may use your notes)

TUESDAY- CH. 8 HOMEWORK IS DUE !!!
CH. 8.1-8.3 SECT. ASSESS. + VOCAB

WED - CELL LAB: MITOSIS W/MICROSCOPES

THURS - CELL LAB: MITOSIS W/MICROSCOPES

FRIDAY - FLIPPED CLASSROOM (1/2 SHEET)
MINI-LECTURE W/VIDEO & Q'S
VIDEO LINK: http://youtu.be/OG5bPEcL82o

***EXTRA CREDIT*** (1/2 SHEET ONLY...SAVE PAPER!)

ACT SCIENCE QUESTIONS


Read the passages and answer the questions that follow.

The work performed by a spring is one of the classic examples of work performed by variable force. When a spring is neither compressed nor extended, we may say that it is in a relaxed state. Any time the spring is taken out of this state, whether by begin stretched or compressed, it will exert what is called a restoring force, as it attempts to reclaim its relaxed state. In most cases, we can say that the force (F) exerted by the spring is proportional to the displacement of the free end from its position during the relaxed state. This is known as Hooke's law, and is expressed:

F = -kd

The negative sign in this equation indicates that the force is always opposite to the displacement. The constant k is known as the spring constant, and is a measure of the resilience of the spring.

1. What is one of the classic examples of work performed by variable force?

A: a ball rolling downhill
B: stretching out a spring
C: compressing a spring
D: the work performed by a spring

2. When is a spring in a relaxed state?
A: when it is neither collapsed nor extended
B: when it is compressed
C: springs are never in a relaxed state
D: when it is extended

3. Which is the best description of a spring's behavior when it is taken out of its natural state?
A: It conforms to its new position.
B: It attempts to return to its natural state.
C: It extends further in the direction that it has been moved.
D: It breaks in half.

4. If a spring is stretched 8 cm from its relaxed position, and then moved another 5 cm away from that position, what will happen to its restoring force?
A: It will become smaller.
B: It does not have a restoring force.
C: It will become larger.
D: It will stay the same.

5. Why is the spring constant always negative?
A: Because it always acts in the opposite direction as the force acting on the spring
B: Because it always acts in the same direction as the force acting on the spring.
C: Because it always acts perpendicular to the force acting on the spring.
D: Because it goes toward the center of the earth.




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