Practice Exercise 2.2 A balloon is rising vertically at 4.0 m/s. Wind is blowing from east to west at 3.0 m/s. Find the resultant velocity of the balloon. wab soy liau The parallelogram method may also be used to add more than two vectors. However, the process is tedious. The steps when adding more than two vectors using the parallelogram method are outlined below and demonstrated in Sample Problem 2.3. 1. After drawing the resultant of the first two vectors, construct a second parallelogram using this resultant and the third vector as sides. 0233y ows vino summaris 11 Draw the diagonal of the parallelogram from the common point. This is now the new resultant. The process is continued until all vectors have been added. 2. 3. 4. The magnitude of the final resultant is determined from the scale used. The direction is measured by a protractor.

Answer practice 2.2. 1,2,3,4 questions based it from sample 2.3 Thanksss!!

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ed Practice Exercise 2.2 A balloon is rising vertically at 4.0 m/s. Wind is blowing from east to west at 3.0 m/s. Find the resultant velocity of the balloon. 2. 3. 4. nor or no 305 37 327 947 The parallelogram method may also be used to add more than two vectors. However, the process is tedious. The steps when adding more than two vectors using the parallelogram method are outlined below and demonstrated in Sample Problem 2.3. 1. After drawing the resultant of the first two vectors, construct a second parallelogram using this resultant and the third vector as sides. di babbed a messy Draw the diagonal of the parallelogram from the common point. This is now the new resultant. The process is continued until all vectors have been added. The magnitude of the final resultant is determined from the scale used. The direction is measured by a protractor. Sample Problem 2.3 A particle is being acted upon by the following forces: F₁ = 4.0 N, east; F₂ = 6.0 N, northeast; and F3 = 8.0 N, south. Find the resultant using the parallelogram method. You forces according to the grouping (F+F₂) + F₂. may add the Solution: As shown in the figure, R₁ = F₁+F₂ while R₂ = R₁ +F₂. The resultant vector in the figure has nine scale units corresponding to 9 N. Using a protractor, the angle that the resultant makes with the horizontal axis is 25°. Thus, the resultant is 9 N, 25° south of east. W- 118 101 3110 31 O F₂ R₁ = F₁+F₂ 20 F₁ busin -E R₂= (F₁+F₂) + F3 F₁ scale: H1N