An object is accelerating at a rate of 8 m/s/s when it suddenly has the net force exerted upon increased by a factor of 2. The new acceleration will be m/s/s. An object is accelerating at a rate of 8 m/s/s when it suddenly has the net force exerted upon increased by a factor of 4. The new acceleration will be m/s/s. An object is accelerating at a rate of 8 m/s/s when it suddenly has the net force exerted upon decreased by a factor of 2. The new acceleration will be m/s/s.

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a. An object is accelerating at a rate of 8 m/s/s when it
suddenly has the net force exerted upon increased by a
factor of 2. The new acceleration will be
m/s/s.
b. An object is accelerating at a rate of 8 m/s/s when it
suddenly has the net force exerted upon increased by a
factor of 4. The new acceleration will be
m/s/s.
C. An object is accelerating at a rate of 8 m/s/s when it
suddenly has the net force exerted upon decreased by a
factor of 2. The new acceleration will be
m/s/s.
d. An object is accelerating at a rate of 8 m/s/s when it
suddenly has its mass increased by a factor of 2. The
new acceleration will be
m/s/s.
An object is accelerating at a rate of 8 m/s/s when it
suddenly has its mass decreased by a factor of 4. The
new acceleration will be
e.
m/s/s.
f.
An object is accelerating at a rate of 8 m/s/s when it
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Transcribed Image Text:IA a. An object is accelerating at a rate of 8 m/s/s when it suddenly has the net force exerted upon increased by a factor of 2. The new acceleration will be m/s/s. b. An object is accelerating at a rate of 8 m/s/s when it suddenly has the net force exerted upon increased by a factor of 4. The new acceleration will be m/s/s. C. An object is accelerating at a rate of 8 m/s/s when it suddenly has the net force exerted upon decreased by a factor of 2. The new acceleration will be m/s/s. d. An object is accelerating at a rate of 8 m/s/s when it suddenly has its mass increased by a factor of 2. The new acceleration will be m/s/s. An object is accelerating at a rate of 8 m/s/s when it suddenly has its mass decreased by a factor of 4. The new acceleration will be e. m/s/s. f. An object is accelerating at a rate of 8 m/s/s when it S Sign out INTL O 2:4
G newton's 2nd laws - Good
W Fma Qualitative.docx
choology
A cfisd.schoology.com/attachment/1588317607/docviewer
G Resultado de imag.
Infofinder i
SD Bookmarks
1 /1>
170%
acceleration will
g. If you half the mass and double the force, the
acceleration will
h. If you half the mass and half the force, the acceleration
will
i. If you half the mass and triple the force, the
acceleration will
2. A group of students sit facing each other and push off
each other so that they accelerate in opposite directions.
Circle the student in each pair who will have the greater
acceleration when they push off.
a. Alice (50kg)
b. Charles (75kg)
c. Elias (60kg)
d. George (100kg)
e. Isabelle (67kg)
f. Kyle (67kg)
g. Michelle (59kg)
3. Predict the effect of the change of mass or net force on
the acceleration of the following objects.
Bob (80kg)
Dean (70kg)
Francis (85kg)
Heloise (55kg)
Jennifer (67kg)
Lottie (62 kg)
Ned (107kg)
Transcribed Image Text:G newton's 2nd laws - Good W Fma Qualitative.docx choology A cfisd.schoology.com/attachment/1588317607/docviewer G Resultado de imag. Infofinder i SD Bookmarks 1 /1> 170% acceleration will g. If you half the mass and double the force, the acceleration will h. If you half the mass and half the force, the acceleration will i. If you half the mass and triple the force, the acceleration will 2. A group of students sit facing each other and push off each other so that they accelerate in opposite directions. Circle the student in each pair who will have the greater acceleration when they push off. a. Alice (50kg) b. Charles (75kg) c. Elias (60kg) d. George (100kg) e. Isabelle (67kg) f. Kyle (67kg) g. Michelle (59kg) 3. Predict the effect of the change of mass or net force on the acceleration of the following objects. Bob (80kg) Dean (70kg) Francis (85kg) Heloise (55kg) Jennifer (67kg) Lottie (62 kg) Ned (107kg)
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