The center of gravity can be obtained: a. dividing the moment of volume with respect to...

Which of the following statements is true about a body's center of gravity: a. It is...

Which of the following statements is true about a body's center of gravity: a. It is the location of the area center b. It is the point where the potential energy of a system is minimal. c. It is the point where the weight resulting from a system acts in such a way that it generates the moment resulting from a system. d. It is the location where the moment resulting from a system subject to symmetrical couplings acts.

Question 1: Mark True or False beside each statement below: _______(a) The center of mass (gravity)...

Question 1: Mark True or False beside each statement below: _______(a) The center of mass (gravity) of any object must lie on a point within or on the body of each object. _______(b) The torque due to a force is independent of the choice of axis of rotation. _______(c) If the forces on an object balance, then this object cannot experience any rotation. _______(d) If the torques on an object balance, then this object cannot have angular acceleration. _______(e) If...

An object is rotating about its center of mass. In space. The Boötes Void, to be...

An object is rotating about its center of mass. In space. The Boötes Void, to be less vague. Point A is on the surface of the object in the plane perpendicular to the axis of rotation. Select all of the following properties that depend on the size and/or shape of the object. a. Angular velocity of point A b. Tangential acceleration of point A. c.Tangential velocity of point A d. Moment of inertia e. Angular acceleration of point A Can...

1. Center of gravity can be considered to be a point on an object at which...

1. Center of gravity can be considered to be a point on an object at which all of its weight can be considered to be concentrated true or false

1. To determine the location of the center of gravity of a car, the car is...

1. To determine the location of the center of gravity of a car, the car is driven over a scale on a horizontal floor. When the front wheels are over the scale, the weight recorded by the scale is 5.79 x 103 N, and when the rear wheels are over the scale, the scale reads 6.51 x 103 N. The distance between the front and rear wheels is measured to be 3.20 m. How far behind the front wheels is...

Moment of Inertia To find the moment of inertia of different objects and to observe the...

Moment of Inertia To find the moment of inertia of different objects and to observe the changes in angular acceleration relative to changing moments of inertia. To also learn how to use calipers in making precise measurements The momentum of inertia of an object is calculated as I=∑mr^2 If the object in question rotates around a central point, then it can be considered a "point mass", and its moment of inertia is simply,  I=mr^2 where r is from the central point...

A boy stands at the center of a turntable, which has a moment of inertia of...

A boy stands at the center of a turntable, which has a moment of inertia of 1.50 kg·m2 about an axis through its center. The boy's moment of inertia about the same axis, when he holds his arms in, is 1.10 kg·m2; when he sticks his arms straight out, his moment of inertia is 1.80 kg·m2. He and the turntable are initially rotating at a rate of 2.00 rad/s, with his arms extended.             a.         He pulls in his arms. What is...

Q1. A set of ocean waves travelling towards the shore can be represented by the following...

Q1. A set of ocean waves travelling towards the shore can be represented by the following equation. ?(?,?)=?????(??−?.??) a) What is the amplitude of the waves? b) What is the wavelength of the waves? c) What is the period of the waves? d) What is the wave speed? Q2. In another experiment, A force of F = 3i+2k N is applied to the edge of a thin metal disk, with mass 20kg and radius 1.4 m. The point on the...

) A dumbbell-shaped object is composed by two equal masses, m, connected by a rod of...

) A dumbbell-shaped object is composed by two equal masses, m, connected by a rod of negligible mass and length r. If I1 is the moment of inertia of this object with respect to an axis passing through the center of the rod and perpendicular to it and I2 is the moment of inertia with respect to an axis passing through one of the masses and perpendicular to the rod, it follows that a. It depends on the values of...

A). The breaks of a car of mass m = 2 103 Kg can provide a...

A). The breaks of a car of mass m = 2 103 Kg can provide a deaccelerating force of 104 N. How far will the car travel before coming to a complete stop if it moves initially at 10 m/s^-1? B). A pendulum of mass 0.1 Kg hangs from the ceiling of car at rest. What would be its maximum angle with respect to the vertical axis if the car accelerates from rest to 5 ms-2. Take g=10 m/s^-2. C)....