In unit vector notation, what is the torque about the origin on a particle located at coordinates (0, -4.0 m, 3.0 m) if that torque is due to (a) force `vecF_(1)` with components `F_(1x)=2.0N,F_(1y)=F_(1z)=0`, and (b) force `vecF_(2)` with components `F_(2x)=0,F_(2y)=2.0N,F_(2z)=4.0N`?

In unit vector notation, find the net torque about the origin on a particle located at (2.0m,-2.0m,-6.0m) when the three forces vecF_(1)=(6.0N)hatj,vecF_(2)=(1.0N)hati-(2.0N)hatj,andvecF_(3)=(4.0N)hati+(2.0N)hatj-(3.0N)k act on the particle.

In unit vector notation, find the torque about a point at coordinates (2.0 m, 1.0 m, 3.0 m) on a particle located at (3.0 m, 1.0 m, 2.0 m) when a force vecF=(1.0N)hati-(3.0N)hatk acts on the particle.

Find the impulse due to the force vecF=ahati+bthatj ,where a =2N and b=4Ns^(-1) if this force acts from t_(i) =0 to t_(f) =0.3s .

A body is hinged at the origin A force F=(3hat i+4hat j+5hat k)N is acting on it at (0,1,0) .The torque due to F about origin has magnitude (in N-m)sqrt(N) .Then the value of N

The equations to sphere passing through origin and the points (-1,0,0),(0,-2,0) and (0,0,-3) is x^2+y^2+z^2+f(x,y,z)=0 . What is f(x,y,z)=

If a function F is such that F(0)=2 , F(1)=3 , F(n+2)=2F(n)-F(n+1) for n ge 0 , then F(5) is equal to

The equation to sphere passing throrugh origin and the points (-1,0,0),(0,-2,0) and (0,0,-3) is x^2+y^2+z^2+f(x,y,z)=0 . What if f(x,y,z) equal to ?

A particle moves through an xyz coordinate system while a force acts on the particle. When the particle has the position vector vecr=(2.00m)hati-(3.00m)hatj+(2.00m)hatk , the force is given by vecF=F_(x)hati+(7.00N)hatj-(6.00N)hatk and the corresponding torque about the origin is vectau=(400N*m)hati+(2.00N*m)hatj-(1.00N*m)hatk . Determine F_(x) .

For non-negative integers m and n a function is defined as follows f(m,n)={n+1 if m=0;f(m-1,1) if m!=0,n=0} 'Then the value of f(1,1) is

Suppose that the foci of the ellipse (x^(2))/(9)+(y^(2))/(5)=1 are (f_(1),0) and (f_(2),0) where f_(1)gt0 and f_(2)lt0 Let P_(1) and P_(2) be two parabola with a c ommon vertex at (0, 0) and with foci at (f_(1),0) and (2f_(z),0) and T_(2) be a tangent to P_(2) which passes through (f_(1),0) . If m_(1) is the slope of T_(1) and m_(2) is the slope of T_(2) , then the value of ((1)/(m_(1)^(2))+m_(2)^(2)) , is