answer with correct unit and round off into 2 decimals only TORQUE: SECOND CONDITION OF EQUILIBRIUMDistance of Object A fromcenter, mObject ATorque due to Object A, N-m10 kg bricks80 kg man30.80|(16)|(17)LINEAR EXPANSIONDataInitial Length of tube, mmInitial Resistance, 2Initial Temperature of Tube, °CChange in Length of Tube, mmResistance of Thermistor at Final Temperature, QFinal Temperature of the Tube, ºCChange in Temperature of TubeExperimental Coefficient of Linear ExpansionUnknown Metal750100000251.37640087.1(18)(19)SPECIFIC HEATUnknown Metal45 g46.9 g155 gMass of Metal, mmMass of Calorimeter, m.Mass of Water, m,Initial Temperature of Metal, tomInitial Temperature of Calorimeter, tọcInitial temperature of Water, towFinal Temperature of Mixture, tmixExperimental Specific Heat of Metal, Cm100 °C30 °C30 °C37 °C(20)LATENT HEATMass of Calorimeter, m.Mass of Water, M,Mass of Mixture, MmixMass of Ice, mInitial Temperature of Ice, tInitial Temperature of Calorimeter, t.Initial Temperature of Water, twFinal Temperature of Mixture, tmixExperimental Latent Heat of Fusion, L-46.9 g115 g145 g35 g0 °C71 °C71 °C47 °C(21)

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Answered: TORQUE: SECOND CONDITION OF EQUILIBRIUM…

TORQUE: SECOND CONDITION OF EQUILIBRIUM Distance of Object A from Object A Torque due to Object A, N-m center, m 10 kg bricks 80 kg man 3 |(16) (17) 0.80

University Physics Volume 2

18th Edition

ISBN:9781938168161

Author:OpenStax

Publisher:OpenStax

Chapter1: Temperature And Heat

Section: Chapter Questions

Problem 96P: A warms transfers energy by conduction through its blubber at the rate of 150 W when immersed in ...

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Question

answer with correct unit and round off into 2 decimals only

TORQUE: SECOND CONDITION OF EQUILIBRIUM
Distance of Object A from
center, m
Object A
Torque due to Object A, N-m
10 kg bricks
80 kg man
3
0.80
|(16)
|(17)
LINEAR EXPANSION
Data
Initial Length of tube, mm
Initial Resistance, 2
Initial Temperature of Tube, °C
Change in Length of Tube, mm
Resistance of Thermistor at Final Temperature, Q
Final Temperature of the Tube, ºC
Change in Temperature of Tube
Experimental Coefficient of Linear Expansion
Unknown Metal
750
100000
25
1.37
6400
87.1
(18)
(19)
SPECIFIC HEAT
Unknown Metal
45 g
46.9 g
155 g
Mass of Metal, mm
Mass of Calorimeter, m.
Mass of Water, m,
Initial Temperature of Metal, tom
Initial Temperature of Calorimeter, tọc
Initial temperature of Water, tow
Final Temperature of Mixture, tmix
Experimental Specific Heat of Metal, Cm
100 °C
30 °C
30 °C
37 °C
(20)
LATENT HEAT
Mass of Calorimeter, m.
Mass of Water, M,
Mass of Mixture, Mmix
Mass of Ice, m
Initial Temperature of Ice, t
Initial Temperature of Calorimeter, t.
Initial Temperature of Water, tw
Final Temperature of Mixture, tmix
Experimental Latent Heat of Fusion, L-
46.9 g
115 g
145 g
35 g
0 °C
71 °C
71 °C
47 °C
(21)

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