6) As shown, a cube (L = 60 mm) suspended in carbon tetrachloride is exactly balance...
As shown, a cube (L=94mm) suspended in carbon tetrachloride is exactly balanced by an object of mass mi=610g. Find the mass m_2 of the cube. [3.77]
6. What is the density (g/L) of gaseous carbon tetrachloride at 650 Torr and 100°C? g/L
A horizontal metal bar of mass mm and length LL is vertically suspended from two conducting wires, as shown in the figure(Figure 1). A uniform magnetic field of magnitude BB points vertically downward. Find the angle θθ the suspending wires make with the vertical when the bar carries a current II Express your answer in terms of the variables m, L, B, I Theta=
A rigid, uniform, horizontal bar of mass m1 and length L is
supported by two identical massless strings. (Figure 1) Both
strings are vertical. String A is attached at a distance d<L/2
from the left end of the bar and is connected to the ceiling;
string B is attached to the left end of the bar and is connected to
the floor. A small block of mass m2 is supported against gravity by
the bar at a distance x from...
Z O= 60 M= 3 g L = 25 cm E = 4 x 10NC L X E MºQ Figure 1: 1. A point charge of charge Q and mass 3g is suspended by an insulating string of length 25 cm is in equilibrium in a horizontal electric field Ē = 4 x 104N/Cî as shown in Figure 1. The string makes an angle of 60° with the vertical. (a) Draw a free body diagram for the charge. Clearly label...
A long horizontal cylinder with diameter of d-60 mm and length of L-1 m is at 27°C and is placed in a quiescent environment at 4°C. Find the cooling rate (q). End effects (heat transfer from the two ends of the cylinder) are negligible. The following relation (Churchill and Chu) for Nusselt number can be used. Air (T-288.5K): v=14.87x10° m2/s, k=0.0254 w/m-K, α=21.0x10-6 m2/s, Pr-0.71, B-3.47x1031/K. 1. Quiescent air 7,-4°C 0.06 m diameter T 27 C L=1m MUD 10.60 +...
Data set: ABP=90/60 mm Hg, HR 110 beats/min, cardiac output = 3 L/min, CVP = 15 mm Hg, PAP = 50/35 mm Hg, PCWP = 6 mm Hg, EF = 60%. Please show all work to justify answer 1. Calculate the PVR
Problem 6: Link 2, shown in the figure, is 25 mm wide, has 12-mm diameter bearings at the ends, and is cut from low-carbon steel bar stock having a minimum yield strength of 165 MPa. The end- condition constants are C-1 and C-1.2 for buckling in and out of the plane of the drawing, respectively. a. Using a design factor na 4, find a suitable thickness for the link. b. Are the bearing stresses at O and B of any...
6.(16) Consider the spring-mass system shown, consisting of two unit masses m, and my suspended from springs with constants k, and ky, respectively. Assuming that there is no damping in the system, the displacement y(t) of the bottom mass m, from its equilibrium positions satisfies the 4-order equation (4) y2 + k + k)y + k_k2yz = e-2, where f(t) = e-2 is an outside force driving the motion of m. If a 24 N weight would stretch the top...
In a ballistic pendulum, an object of mass m is fired with an initial speed v0 at a pendulum bob. The bob has a mass M, which is suspended by a rod of length L and negligible mass. After the collision, the pendulum and
object stick together and swing to a maximum angular displacement θ as shown.A. Find an expression for v0, the initial speed of the fired object.Express your answer in terms of some or all of the variables m, M, L, and...