Part DIn order to determine whether this horizontal position of the pumpkin trajectory represents a minimum or maximum, evaluate▸ View Available Hint(s)ООdx²d² y-3= a = −8.0 × 10 Im (negative, so this is a minimum)-3= a = −8.0 × 10-³ m (negative, so this is a maximum)d² ydx2d² ydx2d²ydx2=2a = -16 × 103 m (negative, so this is a minimum)= 2a==-16 × 10-³ m (negative, so this is a maximum)SubmitPart EPrevious AnswersCorrectAt the location of a maximum of a function, its second derivative will be negative.d²yat xm.dx2Since this represents a maximum of the vertical position function for the pumpkin trajectory, y(x), find the maximum height the pumpkin reaches during its trajectory.Express your answer with the appropriate units.▸ View Available Hint(s)max =ValueμÂUnits?

To solve for the maximum height (ytextmax) of the pumpkin's trajectory, we need the expression for…

Answered: Part D In order to determine whether…

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter2: Vectors

Section: Chapter Questions

Problem 2.4CYU: Check your Understanding A blue fly lands on a sheet of graph paper a point located 10.0 cm to the...

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Similar questions

A surveyor measures the distance across a straight river by the following method: starting directly across from a tree on the opposite bank, he walks x = 1.00 102 m along the riverbank to establish a baseline. Then he sights across to the tree. The angle from his baseline lo the tree is = 35.0 (Fig. P1.53). How wide is the river? Figure P1.53
A surveyor measures the distance across a straight river by the following method (Fig. P3.7). Starting directly across from a tree on the opposite bank, she walks d = 100 m along the riverbank to establish a baseline. Then she sights across to the tree. The angle from her baseline to the tree is = 35.0. How wide is the river?
Explain why a vector cannot have a component greater than its own magnitude.
Find the components of vtot along a set of perpendicular axes rotated 30° counterclockwise relative to those in Figure 3.57.
Vector A has a magnitude of 4.50 m and makes an angle of 64.0 with the positive x axis. Vector B, with a magnitude equal to that of vector A, points along the negative y axis (Fig. P3.16). Graphically find the magnitude and direction of the resultant vector a. A+B, b. AB, c. BA, and d. 2AB.
A trapper walks a 5.0-lan straight-line distance from her cabin to the lake, as shown in the following figure. Determine the east and north components of her displacement vector. How many more kilometers would she have to walk if she walked along the component displacements? What is her displacement vector?
Suppose you walk 18.0 m straight west and then 25.0 m straight north. How far are you from your starting point? What is your displacement vector? What is the direction of your displacement? Assume the +x -axis is horizontal to the right.
An aircraft undergoes two displacements. If the first displacement is directed at an angle of 225 with the positive x axis and has magnitude 30.0 miles, and if the resultant displacement is directed at an angle of 75.0 with the positive x axis and magnitude 22.0 miles, what are the magnitude and direction of the second displacement?
Check your Understanding A blue fly lands on a sheet of graph paper a point located 10.0 cm to the right of its left edge and 8.0 cm above its bottom edge and walks slowly to a point located 5.0 cm from the left edge and 5.0 cm from the bottom edge. Choose the rectangular coordinate system with the origin at the lower left-side comet of the paper and find the displacement vector of the fly. Illustrate your solution by graphing.
1.8 Addition of Vectors by Means of Components A = 10.0 at 30 ° above the +x-axis; B - 12.0 at 60° above the +x-axis; and C - = 15.0 at 50 ° below the -x-axis. What is the magnitude of Å + B+ C? O 6.1 O 25 O 8.6 O 37 O 6.4 Save for Later Submit Answer pouse break prt sc sysra delete bome backspoce
Number 7 with the graph above
▾ Part A The two disks A and B have a mass of 3 kg and 6 kg, respectively. They collide with the initial velocities shown. The coefficient of restitution is e = 0.75. Suppose that (VA)1 = 6 m/s, (VB)1 8 m/s. (Figure 1) = Determine the magnitude of the velocity of A just after impact. Express your answer to three significant figures and include the appropriate units. ▸ View Available Hint(s) Figure (VB)1 1 of 1 > ΜΑ (VA)2= Value Units Submit ▾ Part B Determine the angle between the x axis and the velocity of A just after impact, measured clockwise from t Express your answer in degrees to three significant figures. View Available Hint(s) 0₁ = Submit B A (VA) 60° Line of impact Part C ΜΕ ΑΣΦ vec ?

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