1.2.5601240 A force F = 34 kN is directed from point A (23, 43, 98) to...

5. A 3D force F having magnitude F = 261 kN is applied at point A...

5. A 3D force F having magnitude F = 261 kN is applied at point A (1.9, 3, 6) and directed towards point B (-3, 1.1, 4). Point C has x, y and z coordinates of (2, -5, 3.3). All coordinates have been specified in metres. Calculate the x component of the moment produced by the force F about the point C (in kNm).

In a longitudinal study 43 football players (f) from a sample of 98 obtain a concussion...

In a longitudinal study 43 football players (f) from a sample of 98 obtain a concussion during their career. A further 85 hockey players (h) from a sample of 142 obtain a concussion during their career. Part A. Build a 95% confidence interval for the difference between the football and hockey players. Part B. Is there good evidence that concussion rate is significantly lower for football players than for hockey players? Perform a test of hypothesis to answer the question.

A force F of 30 N is acting in space as shown in the figure. If...

A force F of 30 N is acting in space as shown in the figure. If the angle θ of this force from the x, y axis is: θx = 30°, θy = 40°. Find: (a) θz. (b) The value of the components of the force F at x, y, and z axis. (c) The unit vector equation of the force F.

A (–4, –1, 2), B (3, –2, –1) and C (–1, 3, –4), AB= 7? −...

A (–4, –1, 2), B (3, –2, –1) and C (–1, 3, –4), AB= 7? − ? − 3? CB = 4? − 5? + 3? AC = 3? + 5? - 2? Question 7: Express the vector AC as the sum of two vectors: AC = ? + ?, where ? is parallel to the vector CB and ? is perpendicular to CB. Given that AC ∙ CB = −26 and that CB = √50, determine the y-component of...

NO SOLUTION IS NEEDED. Please just give the answer. thanks! The distance from the point (3,...

NO SOLUTION IS NEEDED. Please just give the answer. thanks! The distance from the point (3, 2) to the line 3x 4y + 2 = 0 is: (a) 19/25 (b) 3/5 (c) 3/25 (d) 19/5 (xii) The lines 2x 3y + 7 = 0 and 3x + 7y 2 = 0 meet at point (a) ( 43/23, 25/23) (b) ( 43/5, 139/35) (c) ( 1/11, 25/77) (d) (47/17, 107/119) The derivative with respect to x of the function x2ex is...

Problem 43.) a.) Use Excel to graph the function f(x) = x3 -6x2 + 9x -6...

Problem 43.) a.) Use Excel to graph the function f(x) = x3 -6x2 + 9x -6 for -2 ≤ x ≤ 5. (OK to draw the graph neatly on your homework, or cut and paste from Excel.) b.) Does it look the graph has both a relative maximum point and relative minimum point? Estimate them from the graph. c.) Find the points where the derivative f ’(x) = 0 and compare to your answers from (b.)

A constant force F=10i+3j−6k moves an object along a straight line from point (10, 3, 5)...

A constant force F=10i+3j−6k moves an object along a straight line from point (10, 3, 5) to point (8, 9, 9). Find the work done if the distance is measured in meters and the magnitude of the force is measured in newtons. Work: nm

Two point charges are located at the following locations: q1= 2.5 × 10−5 C located at...

Two point charges are located at the following locations: q1= 2.5 × 10−5 C located at ~r1= <−4,3,0> m q2= −5×10−5C located at ~r2= < 4,−3,0> m. a) Calculate the net electric force on an electron located at the origin. Answer must be a vector. b) Determine where to place a positive charge q3= 1.2×10−5C so that the net force on the electron located at the origin is zero.

An electromagnetic wave from a wire antenna travels (from the reader) toward the plane of the...

An electromagnetic wave from a wire antenna travels (from the reader) toward the plane of the paper. At time t = 0.0 s it strikes the paper at normal incidence. At point O and t = 0.0 s, the magnetic field vector has its maximum value, 3.79×10-8 T, pointing in the negative y-direction. The frequency of this wave is 1.22×106 Hz 1. What is the x-component of the associated electric field E at time t = 0.0 s? (Use the...

60.0-kg Beatrice on a motor scooter travels east at a speed of 15 m/s. She then...

60.0-kg Beatrice on a motor scooter travels east at a speed of 15 m/s. She then reverses the direction and heads west at 10 m/s. What is the change in her momentum? Question 1 options: 1500 kg·m/s, west 300 kg·m/s, east None of the above 1500 kg·m/s, east 300 kg·m/s, west The forces acting on a plane are: lift L = 10.0 kN up, weight W = 10.0 kN down, thrustT = 2.5 kN east, and drag D = 2.0...