Why the pitching moment about the aerodynamics center is an aerofoil is constant?

Calculate the moment of inertia of a thin rod rotating about an axis through its center...

Calculate the moment of inertia of a thin rod rotating about an axis through its center perpendicular to its long dimension. Do the same for rotation about an axis through one of the ends (perpendicular to the length again). Does this confirm the parallel axis theorem? Remember ?? = ? ??C????.

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...

A turntable with a moment of inertia of 5.4 × 10−3 kg. m2 reaches a constant...

A turntable with a moment of inertia of 5.4 × 10−3 kg. m2 reaches a constant rotational speed of 45 rpm from rest in 6.30 seconds. a. Find the number of revolutions the turntable made during this time. b. Determine the rotational work done by the applied torque for increasing the angular speed from zero to 45 rpm. c. While rotating at a constant rotational speed of 45 rpm, a mouse of 32-g was kept 15 cm from the center....

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.

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

The center of gravity can be obtained: a. dividing the moment of volume with respect to an axis by the complete volume. b. dividing the force of gravity by the mass of the object c. dividing the volume moment by the total volume d. dividing the resulting moments of all the weights of the elements of a body by the resulting weight.

8) A disk is initially spinning about its center at 21 rad/s counter-clockwise and a constant...

8) A disk is initially spinning about its center at 21 rad/s counter-clockwise and a constant angular acceleration of 2.5 rad/s2 is applied to it clockwise. After 5.6 seconds how fast is a piece of dust moving, in m/s, which is 0.62 meters from the center of the disk?

Find the moment of interia of a uniform thin square of side lengths 5L, rotating about...

Find the moment of interia of a uniform thin square of side lengths 5L, rotating about an axis perpendicular to the square and passing through the center of mass. Please derive the equation I= M(a^2+b^2)/12

A 24.5kg child is standing on the outer edge of the horizontal merry go round that has a moment of inertia 989 kg*m^2 about a vertical axis through its center and a radius of 2.40m.

A 24.5kg child is standing on the outer edge of the horizontal merry go round that has a moment of inertia 989 kg*m^2 about a vertical axis through its center and a radius of 2.40m. the entire system including the child is initially rotating at 0.180 rev/s . find the angular velocity if the child moves to a new position 1.10m from the center of the merry go round.

Find the moment of inertia of a right circular cylinder about the cylindrical axis. Mass=M P...

Find the moment of inertia of a right circular cylinder about the cylindrical axis. Mass=M P is constant and v=pi(r)^2

Answer the following questions about moment of inertia: 1) What is the physical significance of the...

Answer the following questions about moment of inertia: 1) What is the physical significance of the y-intercept (I0)? (MOMENT OF INERTIA (I) VS RADIUS (r^2) graph) 2) How might the friction influence the calculations of moment of inertia? 3) When a figure skater does a spin and then pulls in his/her arms, the spin rate increases. Why is this?