College Physics:
College Physics:
11th Edition
ISBN: 9781305965515
Author: SERWAY, Raymond A.
Publisher: Brooks/Cole Pub Co
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Chapter 8, Problem 85AP
To determine

The centre of gravity of the gymnast for a given segment.

Expert Solution & Answer
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Answer to Problem 85AP

Answer The centre of gravity of gymnast is 0.460m,0.0955m for x and y values respectively.

Explanation of Solution

Explanation

Given Info:

The mass of the arms is 6.87kg , the mass of torso is 33.57kg , the mass of thighs is 14.07kg , the mass of legs is 7.54kg

From the table the length of arms is 0.548m , the length of torso is 0.601m , the length of thighs is 0.374m , the length of legs is 0.350m

From the table the centre of gravity of arms is 0.239m along y direction, the centre of gravity of torso 0.337m along x direction, the centre of gravity of thighs is  0.151m , the centre of gravity of legs is 0.227m . The angle between thigh and horizontal is 60° .

Formula to calculate the position of centre of gravity of gymnast along x-axis is,

x=maxa(cg)+mtxt(cg)+mthxth(cg)+mlxl(cg)ma+mt+mth+ml

  • x is the centre of gravity of gymnast along x axis
  • ma is the mass of arms
  • mt is the mass of torso
  • mth is the mass of thighs
  • ml is the mass of legs
  • xa(cg) is the centre of mass in the x direction of the arms
  • xt(cg) is the centre of mass in the x direction of the torso
  • xth(cg) is the centre of mass in the x direction of the thighs
  • xl(cg) is the centre of mass in the x direction of the legs

Formula to calculate the position of centre of gravity of gymnast along y-axis is,

y=maya(cg)+mtyt(cg)+mthyth(cg)+mlyl(cg)ma+mt+mth+ml

  • y is the centre of gravity of gymnast along y axis.
  • ya(cg) is the centre of mass in the y direction of the arms
  • yt(cg) is the centre of mass in the y direction of the torso
  • yth(cg) is the centre of mass in the y direction of the thighs
  • yl(cg) is the centre of mass in the y direction of the legs

Formula to calculate the centre of gravity of thighs along x direction is,

xth(cg)=Lt+rcg(th)cosθ

  • Lt is the length of the torso
  • rcg(th) is the centre of gravity of thighs
  • θ is the angle between thighs and horizontal x axis

Substitute 0.601m for Lt , 0.151m for rcg(th) , and 60° for θ to calculate xth(cg) .

xth(cg)=0.601m+(0.151m)cos60°=0.601m+(0.151m)12=0.677m

Formula to calculate the centre of gravity of thighs along y direction is,

yth(cg)=rcg(th)sinθ

Substitute 0.151m for rcg(th) and 60° for θ to calculate yth(cg)

yth(cg)=(0.151m)sin60°=(0.151m)32=0.131m

Formula to calculate the centre of gravity of legs along x direction is,

xl(cg)=Lt+Lthcosθ+rcg(l)

  • Lt is the length of the torso
  • rcg(l) is the centre of gravity of legs
  • Lth is the length of thighs.

Substitute 0.601m for Lt , 0.227m for rcg(l) , 0.374m for Lth and 60° for θ to calculate xl(cg)

xl(cg)=[0.601m+(0.374m)cos60°+0.227m]=[0.601m+(0.374m)12+0.227m]=1.02m

Formula to calculate the centre of gravity of legs along y direction is,

yl(cg)=Lthsinθ

Substitute 0.374m for rcg(th) and 60° for θ to calculate yl(cg)

yl(cg)=(0.374m)sin60°=(0.374m)32=0.324m

Conclusion:

Formula to calculate the position of centre of gravity of gymnast along x-axis is,

x=maxa(cg)+mtxt(cg)+mthxth(cg)+mlxl(cg)ma+mt+mth+ml

Substitute 6.87kg for ma , 0 m for xa(cg) , 33.57kg for mt , 0.337m for xt(cg) , 14.07kg for mth 0.677m for xth(cg) , 7.54kg for ml , and 1.02m for xl(cg) to calculate  x .

x=(6.87kg)(0)+(33.57kg)(0.337m)+(14.07kg)(0.677m)+(7.54kg)(1.02m)(6.87kg+33.57kg+14.07kg+7.54kg)=28.5362.05=0.460m

Formula to calculate the position of centre of gravity of gymnast along y-axis is,

y=maya(cg)+mtyt(cg)+mthyth(cg)+mlyl(cg)ma+mt+mth+ml

Substitute 6.87kg for ma 33.57kg for mt , 14.07kg for mth , 7.54kg for ml , 0.239m for ya(cg) , 0 m for yt(cg) , 0.131m for yth(cg) and 0.324m for yl(cg) to calculate  the centre of  gravity of the gymnast

y=(6.87kg)(0.239m)+(33.57kg)(0)+(14.07kg)(0.131m)+(7.54kg)(0.324m)(6.87kg+33.57kg+14.07kg+7.54kg)=5.9362.05=0.0955m

Therefore the centre of gravity of the gymnast is 0.460m,0.0955m respectively x and y values

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Students have asked these similar questions
Many aspects of a gymnast's motion can be modeled by representing the gymnast by four segments consisting of arms, torso (including the head), thighs, and lower legs, as in Figure P8.85. Figure P8.85b shows arrows of lengths reg locat- ing the center of gravity of each segment. Use the data below and the coordinate system shown in Figure P8.85b to locate the center of gravity of the gymnast shown in Figure P8.85a. Masses for the arms, thighs, and legs include both appendages. Mass (kg) "eg (m) 0.239 Segment Length (m) 6.87 Arms 0.548 0.337 33.57 Torso 0.601 14.07 0.374 Thighs 0.151 0.227 7.54 Legs 0.350 Thigh O Arm Leg 60° 60° Torso Figure P8.85
The two ends of the barbell shown are made of the same material. Which of the points shown is at the barbell’s center of gravity?
Many aspects of a gymnast's motion can be modeled by representing the gymnast by four segments consisting of arms, torso (including the head), thighs, and lower legs, as in the figure below. Thigh O Arm Leg 60° 60° Torso a b In the figure, (b) shows arrows of lengths r.a locating the center of gravity of each segment. Use the data below and the coordinate system shown in figure (b) to locate the center of gravity of the gymnast shown in figure (a). Masses for the arms, thighs, and legs include both appendages. (Enter your answers in m, to at least three significant figures.) Segment Mass (kg) Length (m) rcg (m) Arms 6.81 0.548 0.236 Torso 33.6 0.613 0.337 Thighs 14.1 0.368 0.149 Legs 7.50 0.350 0.227 HINT Xcg m Ycg m

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