We need at least 10 more requests to produce the answer.
0 / 10 have requested this problem solution
The more requests, the faster the answer.
Finding distance and displacement from g Position (meters) 10조 8 Time (seconds) What is the displacement of the iguana between 0s and 5 s? What is the distance traveled by the iguana between 0 s and 5 s?
6. What is the Instant velocity at 2 seconds & 8 seconds elapsed time using the graph below? (B) 12 18 A 4 0 2 4 6 8 10 12
A position-time graph is shown below: Position vs. Time 15 Position (cm) -> Time (seconds) -> Which statement accurately describes the motion of the object in the graph above over 10 seconds? The object moves forward at 1 cm/s, stops, and then continues at the same velocity. The object moves forward at 1 cm/s, stops, and then increases velocity to 2 cm/s. The object is at rest for 4 seconds and then moves forward for 4 seconds at 1 cm/s....
8 of 8 Using the position of sulfur(s) on the periodic table, in what subshell are its highest-energy electrons, and how many electrons are in that subshell? You should be able to do this without the simulation - just use the periodic table position of sulfur. 31 subshell x electrons X
Consider the oscillator position x=2 cos(2π t), where time t is measured in seconds. What is the value of x at time t=0.5 seconds?
In the graph shown below, t0 = 2.1 seconds, the
object stops at 8 seconds, and t' = 22 seconds. First,
find the value of the object's velocity at 2.1 seconds such that
the object's total displacement from 0to 22 seconds is -55.7
meters. Then, using this value find the acceleration
from t = 0 to 2.1 seconds. Answer in
m/s2.
please show work and explain
Using a time step of 0.02 seconds, find the momentum and
position of the block 0.04 seconds. Show all your work!
Problem: A block of mass M 10 kg is attached by a spring with stiffness ks 120 N/m to the wall at the top of a slippery ramp as shown in the figure. The spring's relaxed length is Lo 1 m. Use g 10 m/s2, if it is needed. At time t 0 the spring's length is L 2...
A car starts at a position of 15.0 meters at time t=1.0 seconds. Based on the velocity vs time graph below, what are the equations for the position and acceleration of the car for times t-1.0 seconds to t-10.0 seconds? 20 18 16 F 14 드12 10 8 4 2 2 3 4 5 6789 10 Time [s
A car driving down the road has a position of 18.0 meters at 3.00 seconds and a position of 8.00 meters at 7.00s. What is the velocity of the car over this time in meters per second? Round your answer correctly to the first three places. No need to include units on this problem.