Let y=f(x) be the particular solution to the differential equation

(dy)/dx=(x^2+1)/e^y

with the initial condition f(1)=0. What is the value of the constant of solution y

A population y grows according to the equation 

dy/dt=ky

where k is a constant and t is measured in years. If the population doubles every 12 years, then what is the value of k?

Biologists stocked a lake with 400 trout. The carrying capacity for the trout is estimated to be 10,000. After 2 months the amount of trout in the lake is 545. Determine the amount of trout in the lake when the rate of change of the population is at a maximum

If given that 

f(2)=1 ; dy/dx at x=2 is 6; step size is 0.1

What is the approximation of f(2.1)

The rate of change of the volume function, V(t), of water in a swimming pool is directly proportional to the cube root of the volume. If V=27 when dV/dt=5, what is a differential equation that models this situation?

The GENERAL solution of the differential equation

(dy)/dx=(4x^3+3x^2+1)/(3y^2)

The value of a car t years after it is purchased is given by the decreasing function V, where V(t) is measured in dollars. The rate of change of the car's value in dollars per year is proportional to the car's value. Which of the following differential equations can be used to model the value of the car where k is a constant.

Consider the population P(t) and it's logistic differential equation shown below. 

(dP)/dt=P/100(1-P/350)

Find 

lim_(t->∞)P(t)

Consider the differential equation below with the initial condition f(1)=0.5. What is the approximation for f(1.2) if Euler's method is used with step size 0.1

Explain why the following slope field cannot represent the differential equation 

dy/dt=0.4y

The general solution for the differential equation

dy/dx=(2xy)/(x^2+2)

As a glacier melts, the volume V of the ice, measured in cubic kilometers, decreases at a rate modeled by differential equation 

where t is meausred in years. The volume of the glacier is 400 cubic kilometers at time t=0. At the moment when the volume of the glacier is 300 cubic kilometers, the volume is decreasing at a rate of 15 cubic kilometers per year. What is the volume in terms of time t?

Consider the follow logistic growth model equation

(dy)/dt=0.5(y-y^2/10)

Find the solution equation y(t) assuming that b=1

Using Euler's method approximate y(2) using a step size of 0.5 given the following:

dy/dx=1+y ; y(1)=2

Then find the error between the actual value of y(2) and the approximation. Note that

y=3e^(x-1)-1

CHALLENGE

Choose another team to challenge to a question involving a general solution to differential equations. If the opposing team accepts the challenge, the first to find the correct solution will win the points. If both teams get it incorrect, every other team has a chance to answer. If the opposing team declines then the challengers automatically get the points. (normal penalty applies).