(17) The pulses shown in the figure are traveling through a string. Draw a snapshot graph...
Draw a (17) The pulses shown in the figure are traveling through a string. snapshot graph for the string at t = 2.0 s. y (cm) at t=0 s 1 m/s -- 0 x (m) 2 4 6 8 110 1 m/s -1
(17) The pulses shown in the figure are traveling through a string. Draw a snapshot graph for the string at t = 2.0 s. y (cm) at t=0 1 1 m/s 0 10 x (m) 8 y (cm) at i=0 1 1 m/s 1 m/s -14 0 10, *(m) 6 N 8 1 m/s
The pulses shown in the figure are traveling through a string. Draw a snapshot graph for the string at t = 2.0 s. y (cm) at 1=0s 1 m/s 1 0 2 x (m) 810 1 m/s -1-
(17) The pulses shown in the figure are traveling through a string. Draw a snapshot graph for the string at t = 2.0 s. y (cm) at=0 1 m/s * (m) 1 m/s -1- (18) Below is a wire with current I and the current is pointing into the page. The current distribute uniformly inside the wire. Draw a graph to describe the relationship between Magnetic Field Intensity (B) and distance ® inside and outside the wire. (19) The image...
Problem 16.2 Choose a correct snapshot graph showing the string at t 2 s Review | Constants Periodic Table (Figure 1) shows a snapshot graph at t -0 s of two waves approaching each other at 1 m/s y (cm) 1 m/s Figure (< 1 of 1 〉 0 x (m) 2 46810 1 m/s y (cm) at t 0 l m/s y (cm) 1 m/s 0 r (m) 1 m/s x (m) 2 468 10 1 m/s y (cm)...
Choose the correct snapshot graph of the string at time t = 1.25 s. Review Constants Periodic Table (Figure 1) is a snapshot graph at t 0 s of a pulse on a string moving to the right at 1 m/s. The string is fixed at -3 m (cm) 2A Figure 〈 1 of 1 〉 2 2A y (cm) at t0 1 m/s Fixed end 0 x (m) y (cm) -A 0 x (m) 2 y (cm) 0 -x...
Choose a correct snapshot graph showing the string at t 3 s ReviewI Constants Periodic Table (Figure 1) shows a snapshot graph at t = 0 s of two waves approaching each other at 1 m/s v (cm) 1 m/s Figure 1 of 1 x (m) 2 4/6810 1 m/s y (cm) at 0 l m/s y (cm) 1 m/s 0 r (m 2 46810 1 m/s r (m) 2 46810 1 m/s y (cm) 1- 1 m/s 0 4x...
1. (15pts) The picture below shows two pulse waves approaching each other on a stretched string at time t-Os. Both pulses have speed of 2.0 m/s. Using the empty graph axes below the snapshot, draw a snapshot of the string at t 1s,t-25 t-4s. D(cm) t0s 2.0 m/s 2.0 m/s 0 16 18 2 6 10 12 14 x (m) D (cm) tls 10 12 14 16 18 x (m) D (cm) t-2s 2 8 10 12 16 0 14...
I need help understanding these problems, they’re a bit
difficult
Two pulses on a string, both traveling at 10m/s, are approaching each other. A snapshot at t-0s is shown below a) Draw d snapshot graph D (in mm) of the string at t-ls. b) Draw da snapshot graph of the string at t-1.2s. c) Which time (a or b) had a point 2 on the string with the greatest displacement? Att - 0s 10 m/s 10 m/s x (in m)...
previous b of 2 Exercise 15.33 Two triangular wave pulses are traveling toward each other on a stretched string as shown in the figure (Figure 1) Each pulse is identical to the other and travels at 2.00 cm/s. The leading edges of the pulses are 1.00 cm apart at t 0. Figure 1 of 1 200 cm/s, e 000 en cm 00 cm 00 00 cm 1.00 1.00 cm 00 an e 200 cm/s Part A sketch the shape of...