Answer True, False, or Cannot tell to each of the five statements below. E.g, if the answer to the first statement is "true' and to the rest, "cannot tell', enter TCCCC. a. A particle with energy E, could move from B to C. E1 PE position b. The graph shows the force required to stretch two springs as a function of their length. Spring 1 has a larger spring constant than spring 2. c. A particle with energy E, moving to the right reflects from point f. E1 PE O Gosition e d. A mass is placed on top of a spring. The spring is pushed down slightly and then let go. The graph represents the situation accurately. Spring PE Gravitational PE KE position e. A spring (constant #) is stretched a a second spring (constant 2) is stretched 2d. There is more PE stored in the second spring.

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Answer True, False, or Cannot tell to each of the five statements below.
E.g., if the answer to the first statement is 'true' and to the rest, "cannot tell', enter TCCCC.
a. A particle with energy E, could move from B to C.
E1
E2
PE
A
position
b. The graph shows the force required to stretch two springs as a function of their length. Spring 1 has a larger spring constant than spring 2.
2
1
c. A particle with energy E, moving to the right reflects from point f.
E1
PE
position
e
d. A mass is placed on top of a spring. The spring is pushed down slightly and then let go. The graph represents the situation accurately.
Spring PE
Gravitational PE
KE
position
e. A spring (constant k) is stretched d; a second spring (constant k/2) is stretched 2d. There is more PE stored in the second spring.
Transcribed Image Text:Answer True, False, or Cannot tell to each of the five statements below. E.g., if the answer to the first statement is 'true' and to the rest, "cannot tell', enter TCCCC. a. A particle with energy E, could move from B to C. E1 E2 PE A position b. The graph shows the force required to stretch two springs as a function of their length. Spring 1 has a larger spring constant than spring 2. 2 1 c. A particle with energy E, moving to the right reflects from point f. E1 PE position e d. A mass is placed on top of a spring. The spring is pushed down slightly and then let go. The graph represents the situation accurately. Spring PE Gravitational PE KE position e. A spring (constant k) is stretched d; a second spring (constant k/2) is stretched 2d. There is more PE stored in the second spring.
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