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For each of the differential equation given, find the general solution:
This is a linear differential equation of the form:
The general solution of the given differential equation is given by the relation,
The integrating factor of the differential equation is
A. e–x
B. e–y
C.
D. x
The given differential equation is:
This is a linear differential equation of the form:
The integrating factor (I.F) is given by the relation,
Hence, the correct answer is C.
For each of the differential equation given, find the general solution:
The given differential equation is
This is in the form of
The solution of the given differential equation is given by the relation,
Therefore, equation (1) becomes:
This is the required general solution of the given differential equation.
For each of the differential equation given, find the general solution:
The given differential equation is
The solution of the given differential equation is given by the relation,
This is the required general solution of the given differential equation.
For each of the differential equation given, find the general solution:
The given differential equation is:
The solution of the given differential equation is given by the relation,
This is the required general solution of the given differential equation.
For each of the differential equation given, find the general solution:
The given differential equation is:
The general solution of the given differential equation is given by the relation,
For each of the differential equation given, find the general solution:
The given differential equation is:
This equation is in the form of:
The general solution of the given differential equation is given by the relation,
Therefore, equation (1) becomes:
For each of the differential equation given, find the general solution:
The given differential equation is:
This equation is in the form of a linear differential equation as:
The general solution of the given differential equation is given by the relation,
For each of the differential equation given, find the general solution:
The given differential equation is:
This equation is the form of a linear differential equation as:
The general solution of the given differential equation is given by the relation,
Substituting the value of in equation (1), we get:
This is the required general solution of the given differential equation.
For each of the differential equation given, find the general solution:
This equation is a linear differential equation of the form:
The general solution of the given differential equation is given by the relation,
For each of the differential equation given, find the general solution:
This equation is a linear differential equation of the form:
The general solution of the given differential equation is given by the relation,
For each of the differential equation given, find the general solution:
This is a linear differential equation of the form:
The general solution of the given differential equation is given by the relation,
For each of the differential equation given, find the general solution:
This is a linear differential equation of the form:
The general solution of the given differential equation is given by the relation,
For each differential equation given, find a particular solution satisfying the given condition:
The given differential equation is
This is a linear equation of the form:
The general solution of the given differential equation is given by the relation,
Now,
Therefore,
Substituting C = –2 in equation (1), we get:
Hence, the required solution of the given differential equation is
For each differential equation given, find a particular solution satisfying the given condition:
This is a linear differential equation of the form:
The general solution of the given differential equation is given by the relation,
Now, y = 0 at x = 1.
Therefore,
Substituting in equation (1), we get:
This is the required general solution of the given differential equation.
For each differential equation given, find a particular solution satisfying the given condition:
The given differential equation is
This is a linear differential equation of the form:
The general solution of the given differential equation is given by the relation,
Now,
Therefore, we get:
Substituting C = 4 in equation (1), we get:
This is the required particular solution of the given differential equation.
Find the equation of a curve passing through the origin given that the slope of the tangent to the curve at any point (x, y) is equal to the sum of the coordinates of the point.
Let F (x, y) be the curve passing through the origin.
At point (x, y), the slope of the curve will be
According to the given information:
This is a linear differential equation of the form:
The general solution of the given differential equation is given by the relation,
Substituting in equation (1), we get:
The curve passes through the origin.
Therefore, equation (2) becomes:
1 = C
⇒ C = 1
Substituting C = 1 in equation (2), we get:
Hence, the required equation of curve passing through the origin is
Find the equation of a curve passing through the point (0, 2) given that the sum of the coordinates of any point on the curve exceeds the magnitude of the slope of the tangent to the curve at that point by 5.
Let F (x, y) be the curve and let (x, y) be a point on the curve. The slope of the tangent to the curve at (x, y) is
According to the given information:
This is a linear differential equation of the form:
The general equation of the curve is given by the relation,
Therefore, equation (1) becomes:
The curve passes through point (0, 2).
Therefore, equation (2) becomes:
0 + 2 – 4 = Ce0
⇒ – 2 = C
⇒ C = – 2
Substituting C = –2 in equation (2), we get:
This is the required equation of the curve.
The integrating factor of the differential equation.
is
A.
B.
C.
D.
The given differential equation is:
This is a linear differential equation of the form:
The integrating factor (I.F) is given by the relation,
Hence, the correct answer is D.
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