Explanation Given: The fields F x is F 0 . The fields F y is 0.3 F 0 . The initial horizontal velocity υ 0 is 0 . Draw the free body diagram as shown in Figure (1). Write the expression for the x component velocity is. υ x = d x d t d x = υ x d t (I) Here, x component velocity is υ x and rate of change of distance with respect to time is ( d x d t ) . Write the expression for the y component velocity is. υ y = d y d t d y = υ y d t (II) Here, x component velocity is υ y and rate of change of distance with respect to time is ( d y d t ) . Write the expression the magnitude of the velocity is. υ = υ x 2 + υ y 2 (III). Here, magnitude of the velocity is υ and velocity components are υ x , and υ y . Write the expression for x component of acceleration. a x = d υ x d t d υ x = a x d t (IV). Here, x component of acceleration is a x and rate of change of x component velocity with respect to time ( t ) is d υ x d t . Write the expression for y component of acceleration. a y = d υ y d t d υ y = a y d t (V). Here, y component of acceleration is a y and rate of change of y component velocity with respect to time ( t ) is d υ y d t . Refer Figure (1). Write the formula to calculate vertical force components: ∑ F y = m a y Here, summation of total force acting on vertical direction is ∑ F y . Resolve the forces along y − axis and determine the normal reaction force ( N ) . ∑ F y = 0.3 F 0 (VI). Write the formula to calculate horizontal force components: ∑ F x = m a x Here, summation of total force acting on horizontal direction is ∑ F x , the mass of the object is m , and acceleration is a . Resolve the forces along x − axis and determine the acceleration. ∑ F x = F 0 (VII). Conclusion: Substitute m a y for ∑ F y , in Equation (VI). ∑ F y = 0.3 F 0 m a y = 0.3 F 0 a y = 0.3 F 0 m Substitute m a x for ∑ F x in Equation (VII). ∑ F x = F 0 m a x = F 0 a x = F 0 m Substitute F 0 m for a x in Equation (IV). Integrate the Equation (IV) at the limits υ 0 to υ x for υ and 0 to t for t . ∫ υ 0 υ x d υ x = ∫ 0 t F 0 m d t υ x = F 0 m t + υ 0 Substitute 0

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