(25%) Problem 3: Two objects, A and B, are located at < 3.5,-6.5, 7.5> m and...
(13%) Problem 4: A stone is dropped from rest from the top of a cliff for it to reach the ground. . ft takes 47 s > 17% Part (a) what is the initial velocity, vi, of the stone in ms? Grade Summary Deductions 09 Potential 100 Attempts remaining: 5 (0% per attempt) detailed view cotan0asin acos0 atan) acotan)sinh0 coshO tanhO cotanh0 Degrees Radians 0 IND vo BACKSPACE: Delete a token before the cursor position Submit Hint Hints: 0% deduction...
(9%) Problem 9: Given position r 1-< rì rly, ri >-<-2.97 m, 5.89 m 4.37 m > and velocity v-< v ,Vy,V >-<-0.644 m/s, 2-402 m/s, 2.622 m/s >, what's the new position r 2 after a small time, t - 2.344 s 17% Part (a) Solve for the x-component ofr2 algebraically de Submit I give up! Hints:-for a 0%-deduction. Hints remaining: 0 Feedback: 0% deduction per feedback 17% Part (b) Solve for the y-component ofr2 algebraically Δ 17% Part...
(25 %) Problem 3: A spring with stiffness of 5.5 N/m, lies horizontally on a frictionless table. One end of the spring is attached to a mass of m- 85 g and the other end is attached to the wall. Relaxed length of the spring is Lo = 20.8 cm. We pull the block to the right, along the positive x-axis, so that length of the spring is now L 24.4 cm. At this instant (t = 0) we gently...
Please answer all parts ing from nanocoulombs to microcoulombs. k here for iled view m Status ▲ 50% Part (a) How many electrons are needed to form a charge of Q/--10 nC? sin0 cotan asin co 4 5 6 atan) acotan0 sinh0 Degrees ORadians I give up! Hints: 0 for a-deduction. Hints remaining: 50% Part (b) How many electrons must be removed from a neutral object to leave a net c 50% Part (a) How many electrons are needed to...
(2590) Problem 6: In the figure, the point charges are located at the corners of an equilateral triangle 22 cm on a side da qc Ib Otheexpertta.con 50% Part (a) Find the magnitude of the electric field, in newtons per coulomb, at the center of the triangular configuration of charges, given that qa-2.9 nC, b8.6 nC, and gc-1.2 nC Grade Summa Deductions Potential Late Work% Late Potential ry 0% 50% 50% cos0 cotan0asin acos0 atan0 acotan sinhO cosh0 tanh cotanh0...
(10%) Problem 7: sphere of radius r2 their size. A conducting sphere of radius r,-0.49 m has a total charge of Q-1.6 pC Another uncharged conducting 0.23 m joins to the initial by a small conducting wire. The spheres are separated by a huge distance compared to us IS al pleted mpleted mpleted mpleted mpleted rtial 50% Part (a) what is the total charge on sphere two Q2 after they are connected, in coulombs? Grade Sumn Deductions Potential Submissions Attempts...
A-d on each please. Will upvote. (1096) Problem 1: Point charges located at 3, 8, and i 1 cm along the x-axis are represented in the figure. 0 10 x (cm) +q -2q Ctheexpertta.con à 33% Part (a) Find the electric field at x- 5.00 cm in N/C, given that q-1.00 C Grade Summary Deductions0e Potential 1009 sin() | cos() | tan() | π| (l.) 171819 4 5 6 Submissions Attempts remaining s (4% per attempt) detailed view cotan) in...
(25%) Problem 4: Consider two projectiles that can be shot upward by spring guns. Object A is made of solid aluminum and has a mass of 50 grams. Object B is made of cast iron and has a mass of 200 grams. For this problem, you may take the gravitational field strength to be g = 10 N/kg. A 14% Part (a) Masses A and B are both shot straight upward at the same time. Mass A is shot with...
Part A and B on both please. Will upvote. A conducting sphere of radius rı 0.22 m Problem 7: a23 m has a total charge of e-2-pC. A second uncharged conducting (10%) sphere of radius to their size. links to the first by a thin conducting wire. The spheres are separated by an enormous distance compared 50% Part (a) what is the total charge on sphere two 02 after they are connected, in coulom Grade S Deductio Potential sin() |...
(17%) Problem 6: Two cars collide at an icy intersection and stick together afterward. The first car has a mass of 1350 kg and is approaching at 6.5 m/s due south. The second car has a mass of 650 kg and is approaching at 19.5 m/s due west. 33% Part (a) Calculate the magnitude of the final velocity, in meters per second, of the cars. Grade Summary Deductions Potential 100 ( HOME sin() cos() tan() cotan() asin() acos atan acotan)...