show work please. Position and Velocity Vectors A squirrel has x- and y-coordinates {1.1 in, 3.4...
A squirrel has x- and y-coordinates ( 1.0 m , 3.2 m ) at time t1=0 and coordinates ( 5.8 m , -0.10 m ) at time t2 = 3.1 s . Part A) For this time interval, find the x-component of the average velocity. Vx=? m/s Part B) For this time interval, find the y-component of the average velocity. Vy= ? m/s Part C) Find the magnitude of the average velocity.Part B) For this time interval, find the y-component...
Exercise 3.1 - Enhanced with Solution A squirrel has r- and y- coordinates (1.3 m, 3.5 m) at time ti 0 and coordinates (5.2 m, -o.10 m) at time t2 2.6 s You may want to review (Pages 67-70) For related problem-solving tips and strategies, you may want to view a Video Tutor Solution of Calculating average and Part A For this time interval, find the x-component of the average velocity. Express your answer using two significant figures. ANSWER m/s...
A rhinoceros is at the origin of coordinates at time t1=0. For the time interval from t1 to t2 = 13.0 s , the rhino's average velocity has x-component -3.2 m/s and y-component 6.0 m/s . At time t2= 13.0 s what is the x-coordinate of the rhino? At time t2= 13.0 s what is the y-coordinate of the rhino? How far is the rhino from the origin?
A rhinoceros is at the origin of coordinates at time t 1 =0 . For the time interval from t 1 to t 2 = 14.5 s , the rhino's average velocity has x-component -3.2 m/s and y-component 5.7 m/s . a>At time t 2 = 14.5 s what is the x-coordinate of the rhino? b>At time t 2 = 14.5 s what is the y-coordinate of the rhino? c>How far is the rhino from the origin?
Section 3.4 Components of a Vector and Unit Vectors 15. A vector has an x component of -25.0 units and a y W component of 40.0 units. Find the magnitude and this int to Chi direction of this vector. 19.Obtain expressions in component form for the posi- Mtion vectors having the polar coordinates (a) 12.8 m, and C ar D i 150°; (b) 3.30 cm, 60.0°; and (c) 22.0 in., 215. B) What is the total distance she travels? 21....
Looking for easy explanation and show of work for each step. East is to the right and west is to the left. At time t_0, Alice is at the origin, has a velocity of 2.50 m/s to the west and an acceleration 0.300 m/s^2 east. At time t_0, Bob is 50.0 m east of Alice, and he has a velocity of 0.500 m/s east and an acceleration 0.120 m/s^2 east. Alice's displacement between time t_0 and time t_1 is equal...
1) 2D kinematics (rectangular coordinates) - A particle moving in the x-y plane has an acceleration in the y-direction given as ay -3t ft/s2 and an x-position ofx 3t + 2 ft. When t0, yo3ft and Vo, -4ft/s. a) Derive expressions for x, vx, ax, V, Vy, ay as functions of time. b) At times t 0,1,2 seconds, calculate the magnitude of velocity and the angle it makes with the x-axis. c) At times t 0,1,2 seconds, calculate the magnitude...
Help please A 2.16 x 10-9 C charge has coordinates x-0, y -2.00, a 3.06 x 10-9 C charge has coordinates x-3.00, y 0; and a-4.65 x 10-9 C charge has coordinates x 3.00, y 4.00, where all distances are in cm. Determine magnitude and direction for the electric field at the origin and the instantaneous acceleration of a proton placed at the origin. (a) Determine the magnitude and direction for the electric field at the origin (measure the angle...
Constants Part A The position of a squirrel running in a park is given by T[(0.280 m/s)t(0.0360 m/s?)t2]i- (0.0190 /)3j. What is u (t), the z-component of the velocity of the squirrel, as function of time? ○ vx(t) = (0.280 m/s)t + (0.0720 m/s*)e 。Ug(t)= (0.0720 m/s*)t O x(t) = 0.280 m/s + (0.0720 m/s)t x(t) 0.280 m/s Submit Reques Answer Part What is vy (t), the y-component of the velocity of the squirrel, as function of time? 0 ty...
Need part B magnitude . Please show work if possible. Thanks! A 2.02 x 10-9 C charge has coordinates x-0, y--2.00; a 2.91 x 10-9 C charge has coordinates x-3.00, y-0; and a -4.60 10-9 C charge has coordinates x 3.00, y-4.00, where all distances are in cm. Determine magnitude and direction for the electric field at the origin and the instantaneous acceleration of a proton placed at the origin. (a) Determine the magnitude and direction for the electric field...