**Problem Description:**The location of the center of mass of the partially eaten, 12-inch diameter pizza is given as \( x_{\text{cm}} = -0.70 \, \text{in} \) and \( y_{\text{cm}} = -0.70 \, \text{in} \).**Part A:**Assuming each quadrant of the pizza to be the same, find the center of mass of the uneaten pizza above the \( x \)-axis (that is, the portion of the pizza in the second quadrant). Find the \( x \)-coordinate.- **Express your answer using two significant figures.**[Input Box: \( x_{\text{cm}} = \, \text{in} \)]**Part B:**Find the \( y \)-coordinate.- **Express your answer using two significant figures.**[Input Box: \( y_{\text{cm}} = \, \text{in} \)]**Figure Explanation:**The diagram depicts a pizza, divided into quadrants by the coordinate axes. The radius of the pizza is labeled as \( r = 6.0 \, \text{in} \), corresponding to a 12-inch diameter. The figure highlights the second quadrant, representing the remaining portion of the uneaten pizza above the \( x \)-axis.

Assume there are three equal pieces of pizza. The first one is a full pizza slice located in the…

The location of the center of mass of the partially eaten, 12-inch diameter pizza shown in the figure (Figure 1) is Xcm= -0.70 in and Yem= -0.70 in Part A Assuming each quadrant of the pizza to be the same, find the center of mass of the uneaten pizza above the z axis (that is, the portion of the pizza in the second quadrant). Find the x- coordinate. Express your answer using two significant figures. zem= Submit Part B Symbol: yem= undo redo resat keyboard shortcuts help, Request Answer Find the y-coordinate. Express your answer using two significant figures. VL Temp@es Symbols undo redo resat keyboard shortcuts help, Submit Request Answer in

The location of the center of mass of the partially eaten, 12-inch diameter pizza shown in the figure (Figure 1) is Xcm= -0.70 in and Yem= -0.70 in Part A Assuming each quadrant of the pizza to be the same, find the center of mass of the uneaten pizza above the z axis (that is, the portion of the pizza in the second quadrant). Find the x- coordinate. Express your answer using two significant figures. zem= Submit Part B Symbol: yem= undo redo resat keyboard shortcuts help, Request Answer Find the y-coordinate. Express your answer using two significant figures. VL Temp@es Symbols undo redo resat keyboard shortcuts help, Submit Request Answer in

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Similar questions

Don't use chat gpt
Please explain your answer.
In order to answer this question, follow the steps provided and remember that the total initial momentum of the system must equal the total final momentum. Also, remember that momentum and velocity are vector quantities so you must specify a negative sign if the motion is to the left. A green truck of mass 2500 kg travels to the right with a velocity vig = 3.7 m/s. The green truck approaches a red truck with mass 1460 kg that is traveling to the left with a velocity of vir = -3 m/s. The trucks collide and stick together after the collision. What is the final velocity, vf of the green-red truck system after the collision. (look at the figure/picture)(a) What was the initial momentum of the green truck before the collision?pgi = 9250 kg m/s(b) What was the initial momentum of the red truck before the collision?pri = -4380 kg m/s(c) What was the total initial momentum of the system of trucks?pTf = 4870 kg m/s (d) What must be the total final momentum of the system after the collision if…
A system composed of the following particles: a 0.500 kg particle at the origin; a 1.25 kgkg particle at x = 0.150 mm, y = 0.200 mm; and a 0.750 kg particle at x = 0.200 mm, y = -0.800 mm. a. Find the x-coordinate of the center of mass of the system. b. Find the y-coordinate of the center of mass of the system.
Please refer to image for questions!
EXERCISE HINTS: GETTING STARTED I'M STUCK! A 3.28 kg object initially moving in the positive x-direction with a velocity of +5.44 m/s collides with and sticks to a 1.60 kg object initially moving in the negative y-direction with a velocity of -3.39 m/s. Find the final components of velocity of the composite object. (Indicate the direction with the sign of your answer.) 1.2 x Vfx Your response differs from the correct answer by more than 10%. Double check your calculations. m/s 2.53 Vfy What are the components of the total momentum before the collision? How are these components affected by the collision? Focus on one component at a time. m/s
A system of four buckets forms a square as shown in the figure. Initially, the buckets have different masses (it is not known how these masses are related). A student begins to add water gradually to the bucket located at the origin. As a result, what happens to the coordinates of the center of mass of the system of buckets?(Figure 3). The x coordinate stays the same; the y coordinate increases. The x coordinate stays the same; the y coordinate decreases. The x coordinate increases; the y coordinate stays the same. The x coordinate decreases; the y coordinate stays the same. The x coordinate increases; the y coordinate increases. The x coordinate decreases; the y coordinate decreases. The x coordinate stays the same; the y coordinate stays the same. There is not enough information to answer the question. The third, fourth, seventh and eigth options are incorrect.
A narrow uniform rod has length 2a. The linear mass density of the rod is p. so the mass m of a length of the rod is pl. Part A A point mass is located a perpendicular distance from the center of the rod. Calculate the magnitude of the force that the rod exerts on the point mass. (Hint: Let the rod be along the y-axis with the center of the rod at the origin, and divide the rod into infinitesimal segments that have length dy and that are located at coordinate y. The mass of the segment is dm = pdy. Write expressions for the I- and y-components of the force on the point mass, and integrate from a toa to find the components of the total force). Express your answer in terms of the gravitational constant G and some or all of the variables m, p, a, and r. IVE ΑΣΦ ? a xa Xb √x xx x b IXI F= Submit Previous Answers Request Answer X Incorrect; Try Again; 3 attempts remaining The correct answer does not depend on: la Part B n(n+1)2 + n(n−1)(n−2) 1+nz+ T³ +... (|1| < 1).) What does your result…
Since a net force is equal to mass times acceleration, and a net force is also equal to the rate of change of momentum, then the rate of change of momentum must equal mass times acceleration. True False Consider a system of 2 objects, A and B. If the rate of change of momentum of the entire system (A and B together) is zero then The total momentum of the system must be zero. The total momentum of the system must be constant. The momentum of A must be constant, and the momentum of B must be constant. The total momentum of the system is conserved. the momentum of A must be zero, and the momentum of B must be zero. You don't have enough information to determine the momentum of A or the momentum of B.
A child in a boat throws a 5.50-kg package out horizontally with a speed of 10.0 m/s. The mass of the child is 26.6 kg and the mass of the boat is 36.4 kg. Calculate the velocity of the boat immediately after, assuming it was initially at rest.Express your answer to three significant figures and include the appropriate units. Enter positive value if the direction of the velocity is in the direction of the velocity of the box and negative value if the direction of the velocity is in the direction opposite to the velocity of the box.
A railroad handcar is moving along straight, frictionless tracks with negligible air resistance. In the following cases, the car initially has a total mass (car and contents) of 190 kg and is traveling east with a velocity of magnitude 4.90 m/s. Find the final velocity of the car in each case, assuming that the handcar does not leave the tracks. Part A An object with a mass of 20.0 kg is thrown sideways out of the car with a speed of 2.50 m/s relative to the car's initial velocity. Express your answer with the appropriate units. V = Submit Part B Value V = Request Answer Units Value An object with a mass of 20.0 kg is thrown backward out of the car with a velocity of 4.90 m/s relative to the initial motion of the car. Express your answer with the appropriate units. ? Units east east
This is the next homogeneous figure where each square measures 10 cm by 10 cm. Find the horizontal position of the center of mass in relation to the coordinate system. Give the answer in cm. y