Solve for the mass density of the string using the equation ? = sqrt T /...

using the increment method or four step rule solve for: Given s=sqrt of t-2, find ds/dt

using the increment method or four step rule solve for: Given s=sqrt of t-2, find ds/dt

A 5.00 kg toolbox is suspended from the end of a virtually mass-less vertical string. A...

A 5.00 kg toolbox is suspended from the end of a virtually mass-less vertical string. A time-dependent upward force is applied to the upper portion of the string, and the toolbox moves upward with a velocity magnitude that varies such that: v(t) = (.800 m/s^3)t^2 + (4.00 m/s^2)t Part 1: How long does it take to reach a velocity of 15 m/s Part 2: What is the Tension in the string when the object has a velocity of 15m/s? For...

the equation of a transverse wave traveling in a string is given by y=a sin(k x??t)....

the equation of a transverse wave traveling in a string is given by y=a sin(k x??t). the tension in the string is 20.0 n, a = 2 mm, k = 30 rad/m, ? = 850 rad/s. what is the wave speed? what is the linear density of the string?

solve the differential equation for the system below u(t) is the unit step function 24u(t+3) -...

solve the differential equation for the system below u(t) is the unit step function 24u(t+3) - 24u(t) = 3x(t)'' + 6x(t)' final answer should be x(t) = ??? please show your work thank you

Suppose you have a charged mass suspended from a string with unknown mass, m. However, you...

Suppose you have a charged mass suspended from a string with unknown mass, m. However, you do know the charge q1 of the suspended mass and q2 , the charge of a second object that you may introduce to the system. Given that you know the charges of both objects and you have access to regular measurement tools like rulers and protractors, determine an experimental procedure for who you could determine the mass of the object. Be sure to include...

ind the absolute maximum and minimum values of the function V ( t ) = 10...

ind the absolute maximum and minimum values of the function V ( t ) = 10 t e − 0.05 t in the interval [ 5 , 50 ]. Explain how you know that the values you found are indeed the biggest and smallest values of V ( t )in the interval. Use the equation editor to: Write down any derivative(s) you use. Write down the equation that you need to solve, and one key step in solving it. Write...

) Solve the differential equation dydt= cos⁡(t)y+sin(t) using either the method of variation of parameters or...

) Solve the differential equation dydt= cos⁡(t)y+sin(t) using either the method of variation of parameters or the method of integration factor. Clearly identify the integration factor or parameter v(t) used (depending on which method you use). Also identify the solution to the homogeneous equation, and the particular solution. The use your solution to find the solution to the IVP obtained by adding the initial condition y(0) = 1.

1. In an experiment to study standing waves, you use a string whose mass per length...

1. In an experiment to study standing waves, you use a string whose mass per length is µ = (1.8 ± 0.1) × 10−3kg/m. You look at the fundamental mode, whose frequency f is related to the length L and tension T of the string by the following equation L = 1 2f s T µ . You make a plot with L on the y-axis and √ T on the x-axis, and find that the best fitting line is...

A restored Civil War cannon is being tested using cannonballs of various mass and using various...

A restored Civil War cannon is being tested using cannonballs of various mass and using various loads of gunpowder. In one test, the cannon fires a cannonball at a speed of 74.0  m/s in a direction which is 51.0  degrees Up from East. The cannonball is intended to land on a mesa which is to the east of the cannon. The near edge of the mesa is a vertical cliff which is 103.0  m high; the base of the cliff is 127.0  m to...

1. For a stationary ball of mass m = 0.200 kg hanging from a massless string,...

1. For a stationary ball of mass m = 0.200 kg hanging from a massless string, draw arrows (click on the “Shapes” tab) showing the forces acting on the ball (lengths can be arbitrary, but get the relative lengths of each force roughly correct). For this case of zero acceleration, use Newton’s 2nd law to find the magnitude of the tension force in the string, in units of Newtons. Since we will be considering motion in the horizontal xy plane,...