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In this week's Minilab, you will be calculating the initial velocity for a projectile launcher using...
Determining Initial Velocity Through Projectile Motion Introduction In this lab we encourage you to play with...
Determining Initial Velocity Through Projectile Motion Introduction In this lab we encourage you to play with toys! You are going to assemble the Hot Wheels Launcher shown above. The orange Hotwheels car launcher (Not to be confused with the Daredevil Stunt set's yellow motorcycle launcher) is a variable speed launch system with four settings. This makes it ideal for experiments to see the effects of velocity on projectile motion. You are then going to launch a car with various initial...
If the projectile is launched at a launching angle theta, with an initial velocity Vo from...
If the projectile is launched at a launching angle theta, with
an initial velocity Vo from a height of Yo above the table top, how
long does it take the projectile to fall on the table top? Now that
your Voy is no longer zero, so you must use the quadratic equation
to solve for t. Express the time in terms of g,Yo,Vo, and theta,
make sure that your y-direction is fixed.
t=
How far would it travel? Express in...
In part 1 of Lab 4 you determined the initial velocity of the projectile object. You...
In part 1 of Lab 4 you determined the initial velocity of the projectile object. You were asked to shoot the ball out at an angle of zero degrees. Using the height from where the ball exits the launcher and the average distance the ball traveled you were asked to calculate the initial velocity. Assuming a height of 0.89 and an average distance of 2.02 calculate the initial velocity. Record your answer rounded to two decibel places and include units.
1. If a projectile is fired with an initial velocity of vo meters per second at...
If a projectile is fired with an initial velocity of v0 meters per second at an angle α above the horizontal, and air resistance is assumed to be negligible, then its position after t seconds is given by the parametric equationsx=(v0 cos α) t y=(v0 sin α) t-1/2 g t2where g is the acceleration due to gravity (9.8 m / s2)(a) If a projectile is fired with α=45° and v0=900 m / s, when will it hit the ground? How...
11) A projectile is launched with velocity vo at angle θ. a. Derive a general equation...
11) A projectile is launched with velocity vo at angle θ. a. Derive a general equation for the time of flight in terms of vo. 0, and g. b. Derive a general equation for the distance traveled (range) c. What elevation angle results in the maximum range? d. Prove your result from c by taking o of your range formula. de
Using Excel Question 2: An electromagnetic projectile launcher has been built. You are tasked with developing...
Using Excel Question 2: An electromagnetic projectile launcher has been built. You are tasked with developing a model for the velocity of the projectile. The launcher stores energy in a capacitor, which is charged to a voltage, Vi prior to launch. The capacitor discharges to 2,000 V, Vf during the launch. The velocity of the projectile is measured for several different voltages as shown in the table. Create an Excel scatter chart with trendline for data set, selecting the best...
I. A projectile is launched from point A with an initial velocity of vo and an...
I. A projectile is launched from point A with an initial velocity of vo and an elevation angle θ as shown. The air resistance is neglected and gravitational acceleration is constant. a) Show that the equation of the path is y-2v zg+x tan θ, where g is the gravitational 2 2v6cos20 acceleration b) Determine the radius of curvature of the path in terms of the time t using n-t coordinate system c) For Vo-10 m/s and θ-40°, plot the radius...
Part B: Launching a Projectile at an Angle (1) Erase the trajectory from part A (yellow...
Part B: Launching a Projectile at an Angle (1) Erase the trajectory from part A (yellow eraser button). (2) Ensure that the initial height (h = 10 m) and initial speed (1 = 15 m s 1) remain equal to the quantities given in part A. (3) Position the projectile launcher so that it launches at an angle of 20°. (4) Fire the launcher (using the red fire button) and record the x-displacement by positioning the center of the target...
Please help me correct my MATLAB script code for this problem, thank you!! A projectile PA is launched from point A towards the east with an initial launch velocity voa and an initial...
Please help me correct my MATLAB script code for this
problem, thank you!!
A projectile PA is launched from point A towards the east with an initial launch velocity voa and an initial lauw angle of 0x. The impact point of the projectile Pa is a point B in a valley with an ordinate, yon, located below the clevation of point A. The launch from point A is instantaneously detected at point B, and a counter projectile P launched simultaneously...
04*. You fire a projectile 35° above horizontal with an initial velocity of 200 m/s It...
04*. You fire a projectile 35° above horizontal with an initial velocity of 200 m/s It lands in a valley 300 m below the launch point. What is the time of flight of the projectile, and what is the range of projectile? [25.8s,4.23x103m]
Determining Initial Velocity Through Projectile Motion Introduction In this lab we encourage you to play with toys! You are going to assemble the Hot Wheels Launcher shown above. The orange Hotwheels car launcher (Not to be confused with the Daredevil Stunt set's yellow motorcycle launcher) is a variable speed launch system with four settings. This makes it ideal for experiments to see the effects of velocity on projectile motion. You are then going to launch a car with various initial...
If the projectile is launched at a launching angle theta, with
an initial velocity Vo from a height of Yo above the table top, how
long does it take the projectile to fall on the table top? Now that
your Voy is no longer zero, so you must use the quadratic equation
to solve for t. Express the time in terms of g,Yo,Vo, and theta,
make sure that your y-direction is fixed.
t=
How far would it travel? Express in...
11) A projectile is launched with velocity vo at angle θ. a. Derive a general equation for the time of flight in terms of vo. 0, and g. b. Derive a general equation for the distance traveled (range) c. What elevation angle results in the maximum range? d. Prove your result from c by taking o of your range formula. de
I. A projectile is launched from point A with an initial velocity of vo and an elevation angle θ as shown. The air resistance is neglected and gravitational acceleration is constant. a) Show that the equation of the path is y-2v zg+x tan θ, where g is the gravitational 2 2v6cos20 acceleration b) Determine the radius of curvature of the path in terms of the time t using n-t coordinate system c) For Vo-10 m/s and θ-40°, plot the radius...
Part B: Launching a Projectile at an Angle (1) Erase the trajectory from part A (yellow eraser button). (2) Ensure that the initial height (h = 10 m) and initial speed (1 = 15 m s 1) remain equal to the quantities given in part A. (3) Position the projectile launcher so that it launches at an angle of 20°. (4) Fire the launcher (using the red fire button) and record the x-displacement by positioning the center of the target...
Please help me correct my MATLAB script code for this
problem, thank you!!
A projectile PA is launched from point A towards the east with an initial launch velocity voa and an initial lauw angle of 0x. The impact point of the projectile Pa is a point B in a valley with an ordinate, yon, located below the clevation of point A. The launch from point A is instantaneously detected at point B, and a counter projectile P launched simultaneously...
04*. You fire a projectile 35° above horizontal with an initial velocity of 200 m/s It lands in a valley 300 m below the launch point. What is the time of flight of the projectile, and what is the range of projectile? [25.8s,4.23x103m]
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