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G. F. D. Duff has written: 'Factorization ladders and eigenfunctions' 'Differential equations of applied mathematics' -- subject(s): Differential equations, Partial, Mathematical physics, Partial Differential equations 'Canadian use of tidal energy : papers on double basin triple powerhouse schemes for tidal energy in the Bay of Fundy' -- subject(s): Power resources, Tidal power, Power utilization 'On wave fronts and boundary waves' -- subject(s): Differential equations, Partial, Partial Differential equations 'Navier Stokes derivative estimates in three dimensions with boundary values and body forces' -- subject(s): Navier-Stokes equations 'Partial differential equations' -- subject(s): Differential equations, Partial, Partial Differential equations
Newton's equation of cooling is a differential equation. If K is the temperature of a body at time t, then dK/dt = -r*(K - Kamb) where Kamb is the temperature of the surrounding, and r is a positive constant.
Your brain helps your body to maintain a constant temperature by detecting temperature receptors that are found in the skin. Temperature is controlled by the hypothalamus.
Equations of kinematics or equations of motion can not be used when the body is not accelerating or is moving with a constant velocity.
(98.4 - measured rectal temperature) / 1.5 Formula: Temperature of body when found = (Initial Difference between body and ambient temp)(e)^(-k x t) + ambient temperature
All the time. Mostly calculus or differential equations. In most of the questions I'm given, I know an initial condition or a boundary condition, or both. If you don't know or haven't learned yet, an initial condition is a property given to something at a certain time, and a boundary condition is a property given to a certain location. A good example is heat transfer, where I may know the surface temperature at time t=0 and some rate of heat being transferred to a body from location x=L. I am given a few heat transfer equations and have to chose which I need to use in this situation. When I chose and set up my formula, I apply the boundary and initial conditions, and I can then solve for the temperature 10 seconds later, or maybe at the other end of the heated body. When I took control theory we used a lot of linear algebra, but we still had to apply the initial and boundary conditions to find the answer at the time we wanted. The equation was different, but we still used differential equations to get our answer. Other than that, I use algebra everyday but I use some of the same formulas and processes so much that I don't even think about it. I also use calculus a good amount of times, but it's not that bad. You will also learn a few new topics in math, but it's usually just to enable you to get to the point where you can finally solve for or plug it into a differential equation. Make sure you pay attention in your differential equations class!
Our body temperature is controlled by the hypothalamus gland found in the brain. When a person is cold the gland sends a signal to the brain to stimulate the muscles which results in the body shivering in chills.
Hair is found all over the body. It is part of the integumentary system which helps regulate body temperature. It is most commonly found on the head.
hey, I am suffering from same problem. My body temperature uis to low that air conditioner drives me crazy. Well, I googled that and look i found this website: http://www.keephopealive.org/report19.html check out this site though it might help...
how homoeostasis of body temperature is achieved in our body
The ant's body temperature is according to place's temperature.
Another name for normal body temperature is core body temperature.