6. Given that FQ-1250 N an force acting between the patella and the femur. d F...
he upper leg muscle (quadriceps) exerts a force of FQ = 1100 N, which is carried by a tendon over the kneecap (the patella) at the angles shown in the figure below. Find the magnitude in newtons and direction in degrees counter-clockwise from an axis directed to the left of the force exerted by the kneecap on the upper leg bone (the femur). magnitude N direction ° counter-clockwise from an axis directed to the left
Problem 10: The upper leg muscle (quadriceps) exerts a force of FQ=1390 N, which is carried by a tendon over the kneecap (the patella) at the angles shown in the figure. Part (a) Find the magnitude of the force, in newtons, exerted by the kneecap on the upper leg bone (the femur) at the point P. Part (b) What angle does the force from the kneecap act at, in degrees measured counterclockwise from the positive x-direction shown in the figure?
The upper leg muscle (quadriceps) exerts a force of FQ = 1380 N, which is carried by a tendon over the kneecap (the patella) at the angles shown in the figure. (5%) Problem 20: The upper leg muscle (quadriceps) exerts a force of FQ-1380 N, which is carried by a tendon over the kneecap (the patella) at the angles shown in the figure 55° 750 Otheexpertta.com > 50% Part (a) Find the magnitude of the force, in newtons, exerted by...
Question 3 Resolve the 300 N force into two components, one along line P and the other along line Q. F 300 N 45 25° 232 N 186 N: Fq Fp 226 N: Fa-212 N Ep Fp 226 N: Fq 135 N Fp 126 N: Fq 272 N Question 4 Four bolts (not shown) connect support A to the ground as shown below. Determine the design load for each of the four bolts. 300 000 N 4 m roller 6...
Maths & Mechanics l. Resolving Vectors Find the force acting along the femur and the force pushing the femur into the hip joint (acetabulum) Hip abductors and adductors o a 800 N 800 Ne 800 N 1500 N 1500 N 1500 N 40 degre 40 degre
A mule is harnessed to a sled having a mass of 211 kg, including supplies. The mule must exert a force exceeding 1250 N at an angle of 30.3° (above the horizontal) in order to get the sled moving. Treat the sled as a point particle. HINT (a) Calculate the normal force (in N) on the sled when the magnitude of the applied force is 1250 N. (Enter the magnitude.) N (b) Find the coefficient of static friction between the sled and the ground beneath it. (c) Find the static friction force...
5) For a force acting on a tree branch, if the force is given by the force vector = (20 N) + (50 N9 + (40 N)2 and the branch is assumed to be straight and along the line given by ř=(-3 m)X + (1 m)9 + (2 m)2 A) What is the magnitude of the force along the branch (F|||? 1002 B) What angle is between the branch and the force? C) What is the force perpendicular to the...
A horizontal force, F_1 = 55 N, and a force, F_2 = 10.1 N acting an an angle of theta to the horizontal, are applied to a block o' mass m = 4.9 kg. The coefficient of kinetic friction between the block and the surface is muk = 0.2. The block is moving to the right. a. (Solve numerically for the magnitude of the normal force. F_N in Newtons. that acts on the block if theta = 30degree. b. Solve...
1) Force acting on the object is 6 N. The object is moving with acceleration of 3 m/s. When the object's acceleration is doubled, the net force would be, A) 3N B) 6N C) 9N D) 12N E) I8N 2) A push of magnitude P acts on a box of weight Was shown in the figure. The push is directed at an angle 0 below the horizontal, and the box remains a rest. The box rests on a horizontal surface...
The force (F) acting in a piston is 10,000 N and the crank radius R, is 60mm. The cylinder diameter, D = 120 mm and the stroke length, L = 120 mm. If the number of cylinders is n = 6, then find the brake mean effective pressure (bmep) in kPa