A 1.0 kg mass is located at the origin of the (?, ?) plane, another 1.0...
A 1.0 kg mass is located at the origin of the (?, ?) plane, another 1.0 kg mass is located at the point (0.12, 0), and a 2.0 kg mass is located at the point (0.06, 0.08), where the (?, ?) coordinates are given in meters. The three masses are fixed relative to each other by massless rods.
a) Find the moment of inertia of this object about an object perpendicular to the (?, ?) plane & passing through the 2.0 kg mass.
b) Use the parallel axis theorem to find the moment of inertia about an axis passing through the center of mass & perpendicular to the (?, ?) plane.
c) Find the moment of inertia about an axis that passes through both of the 1.0 kg masses
d) Find the coordinates of the center of mass of this triangular object.
Homework Answers
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A 1.0 kg mass is located at the origin of the (?, ?) plane,
another 1.0...
QUESTION 1 A dumbell consists of two identical masses of mass M attached to a either...
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Moment of Inertia
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Three light rods of negligible mass are joined to form an equilateral triangle of length L = 1.90 m. Three masses m1 = 5.00 kg, m2 = 7.00 kg, and m3 = 9.00 kg are fixed to the vertices of this triangle as shown in the diagram below. Treat the masses as point particles.(a) What is the moment of inertia of the system about an axis lying in the plane of the triangle, passing through the midpoint of one side...
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The three masses shown in (Figure 1) are connected by massless, rigid rods.
The three masses shown in (Figure 1) are connected by massless, rigid rods. Part A Find the coordinates of the center of gravity. Part B Find the moment of inertia about an axis that passes through mass A and is perpendicular to the page. Part C Find the moment of inertia about an axis that passes through masses B and C.
The three masses in the figure lie in a horizontal plane. They are fixed at the...
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plane. They are fixed at the corners of
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a. Find the center of mass position relative to the origin.
b. Find the moment of inertia of the masses about an axis
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to the z-axis and located at the midpoint of BC.
c. Find the moment of inertia of the masses about an axis
parallel
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An irregularly shaped flat object of mass 2.40 kg is suspended from a point at a...
An irregularly shaped flat object of mass 2.40 kg is suspended from a point at a distance d from its center of mass and allowed to undergo simple harmonic motion in the vertical plane. The object has moment of inertia I = 1.14 kg · m2 about an axis passing through the point of suspension and perpendicular to the plane of the object. The frequency of this oscillatory motion is 0.640 Hz. What is the distance d of the pivot...
An irregularly shaped flat object of mass 2.20 kg is suspended from a point at a...
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Three small spherical masses are located in plane at the positions shown below. 4 3 1...
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The wheel shown consists of a thin ring having a mass of 15 kg and four spokes made from slender rods each having a mass of 1.8 kg. Determine the wheel's moment of inertia about an axis perpendicular to the page and passing through the center of rotation AND the moment of inertia about an axis perpendicular to the page and passing through point A.
The three masses in the figure lie in a horizontal
plane. They are fixed at the corners of
an isosceles triangle with light rigid rods. Assume the masses are
point sized objects.
a. Find the center of mass position relative to the origin.
b. Find the moment of inertia of the masses about an axis
parallel
to the z-axis and located at the midpoint of BC.
c. Find the moment of inertia of the masses about an axis
parallel
to...
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