1 pts Question 6 Consider the 3 mm thick plate below that has a mass of...
please solve 1-5 and show all steps and equations used 10 mm 10 mm 300 N/m 50 mm 10 mm Problem 2. Consider the beam above with the cross-section shown. The number (300N/m) indicates the value of the load distribution at its peak. (5 pts.) Find the reactions (15 pts.) Draw the shear and moment diagrams using the graphical method. Ensure you state values of the diagrams, and type of function for lincar or higher-order segments. You can indicate all...
Question 7 1 pts Two infinite plates with surface charge densities to and -20 are shown below. Determine the direction of the net electric field in each region. (Answers take the form of Region 1, Region 2, Region Region 1 Region 2 Region 3 + + 7 8 x (nm) -5 -4 -3 + 9 -2 -1 6 10 None of the other answers is Right Left, Right Left, Right Right Left, Right, Left Right, Right, Left Question 8 1...
answered to receive full credit. 3. (20 pts) For the L-section beam as shown in Fig- ure 3 which is subjected to a positive bending moment about the z-axis of 90 kN·m, determine 1. (20 pts) Consider the beam with loading shown in Figure 1. (a) Draw the shear and moment diagrams. (a) the location of the centroid (2,P) relative (b) If the beam is constructed from A-36 struc- tural steel, determine the minimum top and bottom section modulii such...
D Question 6 5 pts A horizontal length of current-carrying wire is suspended from two identical flexible leads that are under tension due to the weight of the wire. The wire is oriented at right angles to a uniform magnetic field that has a magnitude of 4 T and is directed out of the screen of the figure. The length L of the wire is 5 cm and its mass mis 10 g. What current will produce a magnetic force...
please help with 1-6!!! Potential 1. Find the potential 3 cm from a 1 uC charge. How much energy is required to bring a 1 pC charge there from very far away? Four 5 uC charges are located at the corners of a square with side 12 cm. Find the potential: a) at the middle. b) at the center of one edge. 2. A 50 HF capacitor is held at a potential difference of 12 V. Find the charge on...
Consider a thin rod of length L and mass M situated with one end at the origin x = 0 of the coordinate system as shown Mostly need help with part B. Thank you a) Four 1 kg boxes sit on a 5 m long uniform rod of mass 4 kg, such that the total mass of the system is 8 kg. The boxes are spaced 1 m apart, with the first box sitting at the left end of the...
2) Consider two large, metal plates with equal and opposite charges as shown below: OV 300 V 3.0 mm 100 V 200 v a) Which plate, left or right, is the positively charged plate? How do you know? (1 pt) b) What is the magnitude and direction of the electric field at point A located halfway between the plates: y=0 m, x= 1.5mm? (2 pts) c) What is the magnitude and direction of the electric force felt by an electron...
Four questions. Please answer with all work shown so I can learn the methods. Thanks (1)Two 2 cm-diameter disks spaced 2.187 mm apart form a parallel-plate capacitor. The electric field between the disks is 464,475.983 V/m. An electron is launched from the negative plate. It strikes the positive plate at a speed of 29,140,951.095 m/s. What was the electron's speed as it left the negative plate? (2)Two equally charged, 3.549 g spheres are placed with 2.925 cm between their centers. When...
U Question 4 2 pts Problem 3: Proton travelling inside a parallel-plate capacitor. A proton travelling at a speed of 1.0 x 106m/s enters the gap between the plates of a parallel-plate capacitor. The plates are 2.0 cm long in the direction the proton is travelling and the surface charge densities on the plates are 1.0 x 10C/m². Assume the electric field is uniform inside the capacitor and zero outside. The mass of a proton is 1.7 x 10-27 kg....
Matlab answer only Form 1 6) [10 pts] Consider the following two matrices B=[S A 3 1 5 -7 4 6-3] a) Obtain the sum of each row of matrix A. b) Use the size function to create a magic matrix P which has the same size as matrix A. c) Create a matrix called Q from the second column of matrix A d) Extract the four numbers in the lower left-hand corner of matrix A and create matrix R....