The rectangle shown has a mass, m. The sides are made of uniform thin wire. The...

A rectangle of perfectly conducting wire having sides a and b , a mass M and...

A rectangle of perfectly conducting wire having sides a and b , a mass M and a self-inductance L, moves with an initial velocity v in its plane, directed along its longest side, from a region with B= 0 to a region with a magnetic field B=Bo which is uniform and perpendicular to the plane of the rectangle. Describe the motion of the rectangle as a function of time, (i.e. find, and solve the equation of motion for the rectangle)

A system consists of a point mass m=0.76kg and a uniform solid cylinder of mass Mcylinder=2.15kg...

A system consists of a point mass m=0.76kg and a uniform solid cylinder of mass Mcylinder=2.15kg and radius R=0.43m attached to both ends of a uniform rigid rod of mass Mrod=2.15kg and length L=2.71m, as shown in the figure. The system is free to rotate about the y axis, which is at a distance x away from the point mass. The y axis is parallel to the side of the cylinder and perpendicular to the length of the rod. Find...

A thin, 1-dimensional, uniform rod of mass M and length L lies on the x axis...

A thin, 1-dimensional, uniform rod of mass M and length L lies on the x axis with one end at the origin. (a) Find its moment of inertia tensor about the origin. (b) Find the moment of inertia tensor if the rod’s center is located at the origin.

A thin, uniform rod is bent into a square of side length a. If the total...

A thin, uniform rod is bent into a square of side length a. If the total mass of the rod is M, find the moment of inertia about an axis through the center and perpendicular to the plane formed by the interior of the square. Thanks!

A thin wire is bent to form a rectangle whose straight sides are long a [m]...

A thin wire is bent to form a rectangle whose straight sides are long a [m] and 2a [m], and a current of i [A] flows through it. Calculate the modulus of the magnetic field in the center of the rectangle. (help: the magnetic field can be calculated as the sum of the contribution of each of the three straight wires)

A thin, rigid, uniform rod has a mass of 1.40 kg and a length of 2.50...

A thin, rigid, uniform rod has a mass of 1.40 kg and a length of 2.50 m. (a) Find the moment of inertia of the rod relative to an axis that is perpendicular to the rod at one end. (b) Suppose all the mass of the rod were located at a single point. Determine the perpendicular distance of this point from the axis in part (a), such that this point particle has the same moment of inertia as the rod...

An object is formed by attaching a uniform, thin rod with a mass of mr =...

An object is formed by attaching a uniform, thin rod with a mass of mr = 7.22 kg and length L = 5.52 m to a uniform sphere with mass ms = 36.1 kg and radius R = 1.38 m. Note ms = 5mr and L = 4R. 1)What is the moment of inertia of the object about an axis at the left end of the rod? 2)If the object is fixed at the left end of the rod, what...

A thin uniform rod has a length of 0.490 m and is rotating in a circle...

A thin uniform rod has a length of 0.490 m and is rotating in a circle on a frictionless table. The axis of rotation is perpendicular to the length of the rod at one end and is stationary. The rod has an angular velocity of 0.37 rad/s and a moment of inertia about the axis of 3.50×10−3 kg⋅m2 . A bug initially standing on the rod at the axis of rotation decides to crawl out to the other end of...

A thin uniform rod has a length of 0.430 m and is rotating in a circle...

A thin uniform rod has a length of 0.430 m and is rotating in a circle on a frictionless table. The axis of rotation is perpendicular to the length of the rod at one end and is stationary. The rod has an angular velocity of 0.32 rad/s and a moment of inertia about the axis of 3.20×10−3 kg⋅m2 . A bug initially standing on the rod at the axis of rotation decides to crawl out to the other end of...

5. Consider an equilateral triangle cut from a thin board. The triangle has mass M and...

5. Consider an equilateral triangle cut from a thin board. The triangle has mass M and and edge length L. Determine he moment of inertia of a triangle for rotation about an axis along one of its edges.