The differential equaiton corresponding to `y=C_1e^(m_1x)+C_2^(m_2x)+C_3e^(m_3x)` where `C_1` are arbitrary constants ans `m_1,m_2,m_3` are roots of the equation `m^3-7m+6=0`

The order of the differential equation,whose general solution is y=C_(1)e^(x)+C_(2)e^(2x)+C_(3)e^(3x)+C_(4)e^(x-c_(5)) where C_(1),C_(2),C_(3),C_(4),C_(5) are arbitrary constants,is

If (m-2,2m+1) lies on equation 2x+3y-10=0 find m

if sin^(3)x sin3x=sum C_(m)cos^(m)x where c_(0),c_(1),c_(2).....c_(6) are constants then :

Find the roots of the equation x^(2)-3x-m(m+3) where m is constant.

If "^(m)C_(3)+^(m)C_(4)>^(m+1)C_(3) the least positive integral value of m is

A triangle has two of its sides along the lines y=m_1x&y=m_2x where m_1, m_2 are the roots of the equation 3x^2+10 x+1=0 and H(6,2) be the orthocentre of the triangle. If the equation of the third side of the triangle is a x+b y+1=0 , then a=3 (b) b=1 (c) a=4 (d) b=-2

Find the value of "m for which the quadratic equation (m+1)y^(2)-6(m+1)y+3(m+9)=0,m!=-1 has equal roots.Hence find the roots of the equation.

If solution of x^(2)(d^(2)y)/(dx^(2))-9x(dy)/(dx)+21y=0 is of the from y=c_(1)x^(m)+c_(2)x^(n)(c_(1),c_(2) are arbitrary constants, m,n in Z ) then values of m,n can be