Calculate the magnitude and direction of each figures shown below. The direction should be measure from...
Q5. The cantilever beam, AC, is subjected to the load case shown in Figure 5. For the loading shown, do the following: [10 Marks] a) Calculate the magnitude and direction of the reactions at A b) Using the Macaulay function, determine the displacement in y of the point B of the beam (x 2.4 m from the support at A) [10 Marks] c) Determine the slope at B. [5 Marks] The beam has a Young's modulus of E-200 GPa and...
Find the magnitude and direction of the resultant vector of the following four vectors. Calculate the angle relative to x axis. Vector A: 10 m, 30* above the +x axis Vector B: 12 m, 15° left of +y axis Vector C: 7 m, 20° below the -x axis Vector D: 15 m, 40* right of -y axis
Calculate the magnitude and direction of the Coulomb force on each of the three charges shown in the figure below. 6.00 µC charge: magnitude Your response differs significantly from the correct answer. Rework your solution from the beginning and check each step carefully. N direction 1.50 µC charge: magnitude N direction -2.00 µC charge: magnitude N direction (6)------(1.5)-------(-2) <---3cm--><----2cm-->
Calculate the net torque (magnitude and direction) on the beam in the figure below about the following axes. 25 N 30° 200 45°〉 | 2.0 m 10 N 30 N (a) an axis through O perpendicular to the page magnitude direction N·m counterclockwise (b) an axis through C perpendicular to the page magnitude N·m counterclockwise
Calculate the magnitude and direction of the Coulomb force on each of the three charges shown in the figure below.
Calculate the total torque (magnitude and direction) for each of
the following cases shown below. You can assume the "bar" the
masses are attached to is massless. The top point of the triangle
represents the pivot point for the system. Be sure to include the
magnitude and the direction.
Calculate the total torque (magnitude and direction) for each of the following cases shown below. You can assume the bar the masses are attached to is massless. The top point of...
Three charges are arranged as shown in the figure below. Find the magnitude and direction of the electrostatic force on the charge q 4.84 nC at the origin. (Let r12 0.260 m.) 6.00 nC 12 + 0.100 m -3.00 nC 1.36e-5 magnitude 253 direction Use the values you calculated for the components of the net force in order to find the angles that the net force vector makes with the x-axis. counterclockwise from the -x axis
Calculate the magnitude and direction of the Coulomb force on each of the three charges shown in the figure below. 6.00 μC 1.50 ,C -2.00 μC 3.00 cm 2.00 cm 6.00 HC charge magnitude 6.00 HC charge direction select B 1.50 HC charge magnitude 1.50 uC charge direction elect. -2.00 HC charge magnitude 2.00 HC charge direction Need Help? Read It 5 -Select--
Three charges are arranged as shown in the figure below. Find the magnitude and direction of the electrostatic force on the charge at the origin. x = 0.2 m y = 0.07 m 2 1 - 10 nC 22 = 5 nc 23 = -3 nC y 92 X q1 + у 93 0.0000297 N at 67.8° above x-axis 0.0000446 N at 52.8° above x-axis 0.0000297 N at 67.8° below x-axis 0.0000446 N at 52.8° above x-axis