P1 = 7.4 kg m/s. 35.5° west of up P2 = 5.2 kg m/s, 17.8° west of up P1 + P2 = [ Select ] kg m/s. [ Select ] [ [ Select ] [ Select ] (relative to east/west)

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**Question 3** \[ \vec{p_1} = 7.4 \text{ kg m/s, } 35.5^\circ \text{ west of up} \] \[ \vec{p_2} = 5.2 \text{ kg m/s, } 17.8^\circ \text{ west of up} \] \[ \vec{p_1} + \vec{p_2} = \text{ [Select] } \text{ kg m/s, [Select] }^\circ \] - **[Select] [Select] \(\boxed{}\) (relative to east/west)** This question requires the calculation of the resultant vector from two momentum vectors, \(\vec{p_1}\) and \(\vec{p_2}\). The vectors are represented with their magnitudes and angles west of the vertical axis (up direction). The result is to be calculated by selecting the appropriate vector sum and direction properties to complete the expression for the total momentum. The directions of the resultant angle are to be defined in relation to the east/west axis.