Projectile Motion Tutorial 4 of 4 Constants | Periodic Table Learning Goal: Understand how to apply the equations for 1-dimensional motion to the y and x directions separately in order to derive standard formulae for the range and height of a projectile. Part A (Figure 1) A projectile is fired from ground level at time t = 0, at an angle Otheta with respect to the horizontal. It has an initial speed vov_0. In this problem we are assuming that the ground is level. Find the time t„t_H it takes the projectile to reach its maximum height. Express ty_H in terms of vov_0, Otheta, and gg (the magnitude of the acceleration due to gravity). • View Available Hint(s) Figure < 1 of 1> '_H = Previous Answers Submit X Incorrect; Try Again; 4 attempts remaining Н Part B Find tpt_R, the time at which the projectile hits the ground. Express the time in terms of vov_0, Otheta, and gg. • View Available Hint(s) Constants | Periodic Table Learning Goal: Find H, the maximum height attained by the projectile. Understand how to apply the equations for 1-dimensional motion to the y and x directions separately in order to derive standard formulae for the range and height of a projectile. Express the maximum height in terms of vo, 0, and g. • View Available Hint(s) (Figure 1) A projectile is fired from ground level at time t = 0, at an angle e with respect to the horizontal. It has an initial speed vo. In this problem we are assuming that the ground is level. Πν ΑΣφ Н (0) - < 1 of 1 Figure Submit Part D Find the total distance R (often called the range) traveled in the x direction; in other words, find where the projectile lands. Н Express the range in terms of vo, 0, and g. • View Available Hint(s) ΠV ΑΣφ R(0) =

Hello, can you help me with all the parts in this question, there are 4 total parts attached as 2 screenshots, part A and B is in 1 screenshot and C and D are in the other screenshot. Please make it clear what the answer is for each part. 

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Projectile Motion Tutorial 4 of 4 Constants | Periodic Table Learning Goal: Understand how to apply the equations for 1-dimensional motion to the y and x directions separately in order to derive standard formulae for the range and height of a projectile. Part A (Figure 1) A projectile is fired from ground level at time t = 0, at an angle Otheta with respect to the horizontal. It has an initial speed vov_0. In this problem we are assuming that the ground is level. Find the time t„t_H it takes the projectile to reach its maximum height. Express ty_H in terms of vov_0, Otheta, and gg (the magnitude of the acceleration due to gravity). • View Available Hint(s) Figure < 1 of 1> '_H = Previous Answers Submit X Incorrect; Try Again; 4 attempts remaining Н Part B Find tpt_R, the time at which the projectile hits the ground. Express the time in terms of vov_0, Otheta, and gg. • View Available Hint(s)

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Constants | Periodic Table Learning Goal: Find H, the maximum height attained by the projectile. Understand how to apply the equations for 1-dimensional motion to the y and x directions separately in order to derive standard formulae for the range and height of a projectile. Express the maximum height in terms of vo, 0, and g. • View Available Hint(s) (Figure 1) A projectile is fired from ground level at time t = 0, at an angle e with respect to the horizontal. It has an initial speed vo. In this problem we are assuming that the ground is level. Πν ΑΣφ Н (0) - < 1 of 1 Figure Submit Part D Find the total distance R (often called the range) traveled in the x direction; in other words, find where the projectile lands. Н Express the range in terms of vo, 0, and g. • View Available Hint(s) ΠV ΑΣφ R(0) =