Water in a pool decreases at a rate proportional to the amount (mass) that is present....

Suppose the rate of change of the temperature of a body is proportional to the difference...

Suppose the rate of change of the temperature of a body is proportional to the difference between & the temperature of the body and the temperature of the surrounding environment which is 35 . The k initial body temperature is 120 After 40 minutes, the temperature went to 60 . a.) Find the differential equation with initial condition that models this situation. b.) Solve to find the general solution using the technique of separation of variables. Call the constant C...

1) Keep the proportionality and the constant of proportionality in mind. The rate of growth of...

1) Keep the proportionality and the constant of proportionality in mind. The rate of growth of a tumor with respect to time (milligrams/day) is proportional to the # of days that passed since the person was admitted to the hospital, with constant of proportionality 1/10. a) What is an equation that gives the instantaneous rate of growth of the tumor as a function of time? Use M= the mass of the tumor; t= times in days since person was admitted...

A rocket accelerates by burning its onboard fuel, so its mass decreases with time. Suppose the...

A rocket accelerates by burning its onboard fuel, so its mass decreases with time. Suppose the initial mass of the rocket at liftoff (including its fuel) is m, the fuel is consumed at rate r, and the exhaust gases are ejected with constant velocity ve (relative to the rocket). A model for the velocity of the rocket at time t is given by the equation v(t) = −gt − ve ln m − rt m where g is the acceleration...

Consider an object with mass m dropped from rest. Assume that air resistance is proportional to...

Consider an object with mass m dropped from rest. Assume that air resistance is proportional to the square of the velocity of the object, with positive proportionality constant k. Let v(t) be the velocity after t seconds, and let g be the acceleration of the object due to gravity. The corresponding initial value problem is mdv =mg−kv2; v(0)=0. dt (a) Solve the initial value problem. Your answer will be in terms of m, k, and g. (b) Compute lim v(t)....

Consider a lake of constant volume 12200 km^3, which at time t contains an amount y(t)...

Consider a lake of constant volume 12200 km^3, which at time t contains an amount y(t) tons of pollutant evenly distributed throughout the lake with a concentration y(t)/12200 tons/km^3. assume that fresh water enters the lake at a rate of 67.1 km^3/yr, and that water leaves the lake at the same rate. suppose that pollutants are added directly to the lake at a constant rate of 550 tons/yr. A. Write a differential equation for y(t). B. Solve the differential equation...

Certain radioactive material decays at a rate proportional to the amount present. If you currently have...

Certain radioactive material decays at a rate proportional to the amount present. If you currently have 300 gr of the material and after 2 years it is observed that 14% of the original mass has disintegrated, find: a) An expression for the quantity of material at time t. b) The time necessary for 30 percent to have disintegrated.

Dorothy just threw her bucket of water on the wicked witch of the west causing the...

Dorothy just threw her bucket of water on the wicked witch of the west causing the witch's body to melt away at a rate proportional to her remaining body mass m(t). Write a differential equation that describes the rate at which the wicked witch's body is melting.

A 2 kg mass is connected to a wall through a spring with force constant of...

A 2 kg mass is connected to a wall through a spring with force constant of 8 N/m. Using the Laplace transform method, calculate the time-dependent position of the mass, x(t) for t > 0, for the following cases: The mass is initially at rest, and then is hit at time zero with an impact described by f(t) = delta function. The mass is initially at rest, and then is hit at time t = 1 s with an impact...

1. Suppose a drug is administered to a patient through an intravenous line at a rate...

1. Suppose a drug is administered to a patient through an intravenous line at a rate of r mg/hr. The rate at which the drug is metabolized causes the patient to eliminate 5% of the amount of the drug in their system per hour. Let y(t) represent the amount of the drug in the patients system t hours after it began to be administered.   a) write a first-order differential equation involving the function y that represents the situation along with...

At the Monterey sports center pool there is a water slide whose top is 5.00 meters...

At the Monterey sports center pool there is a water slide whose top is 5.00 meters above the pool.   The total length of the slide is 15.0 meters because it ‘winds’ its way down to the water. Since water is running down the slide, there is very little friction (we will assume none) between the swimmers’ bathing suits and the slide surface. Determine the final velocity of a person at the bottom of the slide before they enter the water....