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Learning Goal: To understand how to apply the equations for one-dimensional motion to the x and y directions separately in order to derive standard formulas for the range and height of a projectile. (Figure 1) A projectile is fired from ground level at time t = 0, at an angle with respect to the horizontal. It has an initial speed 2. In this problem we are assuming that the ground is level. Figure < 1 of 1 > R ▼ Part C Find H, the maximum height attained by the projectile. Express your answer in terms of vo, 0, and g. ▸ View Available Hint(s) [7] ΑΣΦ + X-²² ľ IXI www. ² sin ²(0) 0 H= 2g ! Check that any empty variable superscripts/subscripts in your answer are filled, with subscripts directly following the variable. No credit lost. Try again. Submit Previous Answers Part D Find the total distance R (often called the range) traveled in the x direction; see the figure in the problem introduction. Express the range in terms of v, 0, and g. √x vx ? x 10m

Learning Goal: To understand how to apply the equations for one-dimensional motion to the x and y directions separately in order to derive standard formulas for the range and height of a projectile. (Figure 1) A projectile is fired from ground level at time t = 0, at an angle with respect to the horizontal. It has an initial speed . In this problem we are assuming that the ground is level. Figure (< 1 of 1 > H R II H= v² sin ²(0) 2g ! Check that any empty variable superscripts/subscripts in your answer are filled, with subscripts directly following the variable. No credit lost. Try again. Submit Previous Answers Part D Find the total distance R (often called the range) traveled in the x direction; see the figure in the problem introduction. Express the range in terms of 0, 0, and g. ► View Available Hint(s) {ΠΙ ΑΣΦ ? ² sin 20 g Previous Answers R= Submit Provide Feedback