91Ó°ÊÓ

Using the scale \(1.0 \mathrm{~cm}=5 \overline{0} \mathrm{~km}\), find the length of the vector that represents each displacement. Displacement \(100 \mathrm{~km}\) east length \(=\) ______ cm

Use graph paper to find the resultant of each displacement pair. \(35 \mathrm{~km}\) due east, then \(5 \overline{0} \mathrm{~km}\) due north

Use graph paper to find the resultant of each displacement pair. \(6 \overline{0} \mathrm{~km}\) due west, then \(9 \overline{0} \mathrm{~km}\) due south

Using the scale \(1.0 \mathrm{~cm}=5 \overline{0} \mathrm{~km}\), find the length of the vector that represents each displacement. Displacement \(125 \mathrm{~km}\) south length \(=\) ______ cm

Using the scale \(1.0 \mathrm{~cm}=5 \overline{0} \mathrm{~km}\), find the length of the vector that represents each displacement. Displacement \(14 \overline{0} \mathrm{~km}\) at \(45^{\circ}\) east of south length \(=\) ______ cm

Use graph paper to find the resultant of each displacement pair. \(5 \overline{0} 0 \mathrm{mi}\) at \(75^{\circ}\) east of north, then \(15 \overline{0} 0 \mathrm{mi}\) at \(2 \overline{0}^{\circ}\) west of south

Using the scale \(1.0 \mathrm{~cm}=5 \overline{0} \mathrm{~km}\), find the length of the vector that represents each displacement. Displacement \(26 \overline{0} \mathrm{~km}\) at \(3 \overline{0}^{\circ}\) south of west length \(=\) ______ cm

Use graph paper to find the resultant of each displacement pair. \(2 \overline{0} \mathrm{mi}\) at \(3^{\circ}\) north of east, then \(17 \mathrm{mi}\) at \(9^{\circ}\) west of south

Using the scale \(1.0 \mathrm{~cm}=5 \overline{0} \mathrm{~km}\), find the length of the vector that represents each displacement. Displacement \(315 \mathrm{~km}\) at \(65^{\circ}\) north of east length \(=\) ______ cm

Use graph paper to find the resultant of each displacement pair. \(67 \mathrm{~km}\) at \(55^{\circ}\) north of west, then \(46 \mathrm{~km}\) at \(25^{\circ}\) south of east