Advertisements
Advertisements
प्रश्न
The volume of spherical balloon being inflated changes at a constant rate. If initially its radius is 3 units and after 3 seconds it is 6 units. Find the radius of balloon after t seconds.
उत्तर
`V = 4/3 pir^3` ....(1)
Differentiating (1) w.r.t.t., we get
`(dV)/dt = 4pir^2 (dr)/dt`
Now, `(dV)/dt = a`
⇒ `4pir^2 = (dr)/dt = a` ....(2)
Integrating (2) both sides, we get,
⇒ `int 4 pi r^2 dr = int a dt`
⇒ `4pi r^3/3 = at + C`
When t = 0, r = 3
∴ `(4pi (3)^3)/3 = C`
⇒ C = 36π
∴ `(4 pir^3)/3 = at + 36 pi`
When t = 3, r = 6 then
`(4pi(6)^3)/3 = 3a + 36 pi`
⇒ `(4pi xx 36 xx 6)/3`
= 3a + 36π
⇒ 288π = 3a + 36π
⇒ 96π = a + 12π
⇒ a = 84π
Hence, `(4pir^3)/3 = 84pi t + 36 pi`
⇒ `(4r^3)/3 = 84t + 36`
⇒ `r^3/3 = 21t + 9`
⇒ `r^3 = 63t + 27`
⇒ `r = (63t + 27)^(1/3)`
APPEARS IN
संबंधित प्रश्न
For the differential equation, find the general solution:
`dy/dx = sqrt(4-y^2) (-2 < y < 2)`
For the differential equation, find the general solution:
`dy/dx + y = 1(y != 1)`
For the differential equation, find the general solution:
sec2 x tan y dx + sec2 y tan x dy = 0
For the differential equation, find the general solution:
y log y dx - x dy = 0
For the differential equation, find the general solution:
`x^5 dy/dx = - y^5`
For the differential equation, find the general solution:
ex tan y dx + (1 – ex) sec2 y dy = 0
For the differential equation find a particular solution satisfying the given condition:
`(x^3 + x^2 + x + 1) dy/dx = 2x^2 + x; y = 1` When x = 0
For the differential equation find a particular solution satisfying the given condition:
`x(x^2 - 1) dy/dx = 1` , y = 0 when x = 2
For the differential equation find a particular solution satisfying the given condition:
`cos (dx/dy) = a(a in R); y = 1` when x = 0
For the differential equation find a particular solution satisfying the given condition:
`dy/dx` = y tan x; y = 1 when x = 0
Find the equation of a curve passing through the point (0, 0) and whose differential equation is y′ = e x sin x.
At any point (x, y) of a curve, the slope of the tangent is twice the slope of the line segment joining the point of contact to the point (- 4, -3). Find the equation of the curve given that it passes through (-2, 1).
The general solution of the differential equation `dy/dx = e^(x+y)` is ______.
Find the equation of the curve passing through the point `(0,pi/4)`, whose differential equation is sin x cos y dx + cos x sin y dy = 0.
Find the particular solution of the differential equation ex tan y dx + (2 – ex) sec2 y dy = 0, give that `y = pi/4` when x = 0
Find the particular solution of the differential equation `dy/dx + 2y tan x = sin x` given that y = 0 when x = `pi/3`
Solve the equation for x:
sin-1x + sin-1(1 - x) = cos-1x, x ≠ 0
Solve the differential equation `"dy"/"dx" = 1 + "x"^2 + "y"^2 +"x"^2"y"^2`, given that y = 1 when x = 0.
Verify y = log x + c is a solution of the differential equation
`x(d^2y)/dx^2 + dy/dx = 0`
Solve `dy/dx = (x+y+1)/(x+y-1) when x = 2/3 and y = 1/3`
Solve
y dx – x dy = −log x dx
Solve
`y log y dy/dx + x – log y = 0`
The resale value of a machine decreases over a 10 year period at a rate that depends on the age of the machine. When the machine is x years old, the rate at which its value is changing is ₹ 2200 (x − 10) per year. Express the value of the machine as a function of its age and initial value. If the machine was originally worth ₹1,20,000, how much will it be worth when it is 10 years old?
Solve
`y log y dx/ dy = log y – x`
State whether the following statement is True or False:
A differential equation in which the dependent variable, say y, depends only on one independent variable, say x, is called as ordinary differential equation
Find the solution of `"dy"/"dx"` = 2y–x.
Solve the differential equation `"dy"/"dx" + 1` = ex + y.
Solve: (x + y)(dx – dy) = dx + dy. [Hint: Substitute x + y = z after seperating dx and dy]
Polio drops are delivered to 50 K children in a district. The rate at which polio drops are given is directly proportional to the number of children who have not been administered the drops. By the end of 2nd week half the children have been given the polio drops. How many will have been given the drops by the end of 3rd week can be estimated using the solution to the differential equation `"dy"/"dx" = "k"(50 - "y")` where x denotes the number of weeks and y the number of children who have been given the drops.
Which method of solving a differential equation can be used to solve `"dy"/"dx" = "k"(50 - "y")`?
Solve the following differential equation
x2y dx – (x3 + y3)dy = 0
