explain and derive... Euler’s equations of rotational motion of a rigid body Equations of motion of...

The dynamics equations of motion for rigid body motion is a plane is given by: ΣF...

The dynamics equations of motion for rigid body motion is a plane is given by: ΣF = ma       (translational acceleration) ΣMCM = ICMα   (rotational acceleration) where MCM is the moment about the Center of Mass, ICM is moment of inertia about the Center of Mass, and α is the angular acceleration. Prove that for static or quasi-static analysis, the sum of moments can be taken about any point, as shown below ΣF = 0       (translational equilibrium) ΣMa = 0   (rotational equilibrium)...

Please answer all parts. Thank you! 1. Explain the correspondence that lets us easily translate between...

Please answer all parts. Thank you! 1. Explain the correspondence that lets us easily translate between linear motion and rotational motion. What are the linear analogues of the rotational quantities we have discussed in lecture i.e. angle, angular velocity, angular acceleration and moment of inertia? Where does the correspondence seem to fail? 2. Explain, in words, how we know that a freely spinning asteroid in space is rotating about an axis that passes through its center of mass? 3. You...

1. You are being hunted by a raptor. It corners you, and begins to charge, qt...

1. You are being hunted by a raptor. It corners you, and begins to charge, qt a velocity of 20 m/s. You have constructed a trap. It consists of a trip wire that will knock the raptor down and transfer all of its KE to a phaser rifle that requires 80 kJ of energy to fire directly at your foe. If the raptor has a mass of 150 kg, will the rifle gain enough energy to fire? a)no b)not enough...

Please answer all, Thank you. 1. A firework is designed so that when it is fired...

Please answer all, Thank you. 1. A firework is designed so that when it is fired directly upwards, it explodes and splits into three equal-massed parts at its peak. Someone launches the firework directly upwards and measures the locations of two of the pieces of the firework. They find that one piece landed 2 meters to the left and another piece landed two meters in front of them. Where did the third piece of land? 2. A Newton's cradle is...