AaBbCcDdE AaBbCcD Emphasis Heading 1 Name: Phy 1010 -Chapter 3 Activity: Projectile Motion Requires a golf...
Emphasis Name: Phy 1010-Chapter 3 Activity: Projectile Motion Requires a golf ball, a stop watch and a friend to help you Trow asmall ball (best a golfball) straight upward as hard as you friend can measure the time of flight of the ball using a stop watch Find the initial speed of your throw and the approximate maximum height of the ball solely with the use of the measured time. 1) Your Please write here the equations you are using:...
Phy 1010-Chapter 3 Activity: Projectile Motion Requires a golf ball, a stop watch and a friend to help you. 1) Throw a small ball (best a golf ball) straight upward as hard as you can. Your friend can measure the time of flight of the ball using a stop watch. Find the initial speed of your throw and the approximate maximum height of the ball solely with the use of the measured time Please write here the equations you are...
Phy 1010-Chapter 3 Activity: Projectile Motion Requires a golf ball, a stop watch and a friend to help you. 1) Throw a small ball (best a golf ball) straight upward as hard as you can. Your friend can measure the time of flight of the ball using a stop watch. Find the initial speed of your throw and the approximate maximum height of the ball solely with the use of the measured time Please write here the equations you are...
Fill in the remaining parts of the table ( Vo and hmax) for each trail Requires a golf ball, a stop watch and a friend to help you. Throw a small ball (best a golf ball) straight upward as hard as you can. Your friend can measure the time of flight of the ball using a stop watch. Find the initial speed of your throw and the approximate maximum height of the ball solely with the use of the measured...
0 - Incomplete Projectile Motion: Look again at chapter 3, sections 7 and 8. Problem 1: Problem 3.29 of Giancoli lan bah Problem 2: I throw a ball, mass m-5.0kg, at an initial speed of 3.0m/s, at an initial height of 1.7m, but at an angle of 37' with respect to the horizontal. It lands on the ground, at a final height of zero. (a) What is the initial velocity? (This is a VECTOR. Define ti as the horizontal, and...
Instructions for PHY 2048 Problem Set (PSET): (1) Please NEATLY write your name and your solutions. (2) You must use blank 8"x11" printer paper. (3) Begin each problem on a new page, and put your name on each page. Staple your pages together. 4) Only write on one side of the page. (5) You must write up your solutions independently (i.e. don't copy anyone else's solutions), using your own words and thought process. You must show all of your work....
Please help with Q1 a)b)c). Question 1: In the lectures we considered simple projectile motion. Here we extend the description to include air resistance. For macroscopic objects in air, the dynamics equations including air resistance may be written V and ^- where m is the mass of the object, g is the acceleration due to gravity, y is the vertical direction, C is a dimensionless drag coefficient, A is the cross-sectional area of the object, pa 1.2kg/m3 is the density...
1) (23.0 pts) A student in a physics class decides to test their understanding of Projectile Motion theory by determining how fast they throw a baseball. On a nice day, with essentially n wind, they go out to a park to perfonm the experiment. The student throws the baseball to get an idea of the angle at which they will launch the baseball. By using the idea that the length from the middle of one's chest to the finger tips...
Projectile A is fired at a speed Vo at an angle 0 above horizontal as shown and projectile B is fired at the sar but at a speed of 2%. Use this for Questions #1-7. angle Draw the initial velocity vectors for both projectile A and projectile B. Remember that the length of your arrows is important. 1. 2. Compare the initial horizorntal and vertical velocities of projectiles A and B. Be specific. Explain your answers. 3. Compare the horizontal...