Draw and label a force diagram of the forces on q4(make sure you have an arrow for eachof the other charges, even any that cancel) Find the net force (magnitude and angle) on q4. [5.42x104N, 8.7° (be sure to include, angle from what?)]
Draw and label a force diagram of the forces on q4(make sure you have an arrow...
7. Draw and label a force diagram for each of the three charges. Then calculate the net force (magnitude and direction) on each charge. [magnitudes are 1.42x106 N, 4.78x106 N, 3.36x106 N, don't forget directions] 9.5 cm 15.8cm-> . 91 42 1.3mC 93 -4.4mC 2.1mC 8. Draw and label a force diagram of the forces on q4 (make sure you have an arrow for each of the other charges, even any that cancel) Find the net force (magnitude and angle)...
Draw and label a vector diagram for the electric field at point
A (make sure you have an arrow for each of the other charges, even
any that cancel). Calculate the magnitude and angle of
the net electric field at A. [1.22x109N/C,
60.6° (be sure to include, angle from what?]
11mm q2 13uC 55° 8.8mm 8.8mm 55 3 13uC 6.5mm11mm
What other forces (at least 2) are acting on that crate? Draw and Label the 2 forces on the diagram. 5. Two horizontal forces, as shown in the diagram, are exerted on a 10 kg crate: a 70 Newton applied force and a 30 Newton frictional force. What is the magnitude and direction of the crate's acceleration? BONUS QUESTION: What other forces (at least 2] are acting on that crate? Draw and Label the 2 forces on the diagram.
Redraw the diagram, showing all three forces. Label the third
force F⃗ 3.
Draw the force vector starting at the black dot. The location,
orientation, and length of the vector will be graded. You can move
the vectors F⃗ 1 and F⃗ 2 to construct the required vector, but be
sure to return them into their initial positions before submitting
the answer.
********* need the point
roblem 5.17-Enhanced-with Video Solution 7 of 11 Review Part A (Figure 1) shows two...
a) The horizontal force(s) (direction and magnitude) acting on
the gate per unit width and draw the pressure distribution
diagram(s) [6 marks] b) The vertical force(s) acting on the gate
per unit width (Include direction and magnitude). [6 marks] c) If
the gate is 5 m long (into the page), calculate the magnitude,
direction and angle of the resultant hydrostatic force acting on
the gate. [7 marks] d) The net horizontal force acting on the dam
per unit width. Include...
Problem 1: a. Draw a situation where a perfectly competitive firm is making a loss, make sure to label loss. When should the firm shut down? (Make sure to include a market diagram). b. State and draw a graph explaining the long run equilibrium in a perfectly competitive market. Why does the market come to rest at this point? Explain.
a) Draw the region of integration for the following integral. Label everything. Make sure to include any points of intersection. Label any lines and curves. Shade in the region. Draw it legibly. Draw it big. A poorly drawn region will not receive any points. S3 Mine" y? dy dit b) Change the order of integration. Do not evaluate the integral.
Please help and be sure to draw a good free body diagram with
corresponding forces. thank you!
1. (5 points) A 5000 kg rocket is launched at an angle of e = 44.7° from rest. The rocket's engines provide a constant thrust force of thrust = 140,700 N. (a) Using a combination of dynamics and kinematics, calculate an equation that describes the rocket's vertical position as a function of its horizontal position, y(x). Your solution should include a free-body diagram...
Learning Goal: To gain practice drawing free-body diagramsWhenever you face a problem involving forces, always start with a free-body diagram.To draw a free-body diagram use the following steps:Isolate the object of interest. It is customary to represent the object of interest as a point in your diagram.Identify all the forces acting on the object and their directions. Do not include forces acting on other objects in the problem. Also, do not include quantities, such as velocities and accelerations, that do...
Problem 1: For each case, draw and label the forces (not components) acting on the object. Each arrow must start on the white dot and be straight. Then write one or more equations relating the forces on the object. Finally, rank the three forces in the blanks. Acceptable labels are Fw (or Fe or mg), Fx, F Fr, and Papplied Net Force Equation: Balanced Forces Equation: Rank the forces: Balanced Forces Equation: Balanced Forces Equation Rank the forces:_ Car slows...