A vector representing 100 N is oriented at 31◦ with the horizontal.
A.) What is the magnitude of its horizontal component? Answer in units of N.
B.) What is the magnitude of its vertical component? Answer in units of N.
A vector representing 100 N is oriented at 31◦ with the horizontal. A.) What is the...
A. Vector A has a magnitude of 47 N and an angle 0 of 33°. What is the x-component of vector A? (include units with answer) What is the y-component of vector A? (include units with answer) C. Vector C has a magnitude of 54 N and an angle θ of 22°. What is the y-component of vector C? (include units with answer)
Vector a has a negative horizontal component of 3 units of longitus and a positive vertical component of 2 units of length. Determine: a. an expression for a in unit vector notation b. the magnitus and the direction of a c. a vector b that added to the vector "a" produces a resulting vector with component "x" null and component "y" negative of 4 units
For a vector of magnitude C that makes an angle theta with the horizontal, the vertical component of the vector is found by the equation_________.
D. Vector D has a magnitude of 59 N and an angle θ of 39°. What is the x-component of vector D? (include units with answer) A vector has an x-component of 15.0 m/s and a y-component of-5.0 m/s Determine the magnitude of the vector. (include units with answer) E. What is the angle of the vector of Part E measured counterclockwise (CCW) from the positive x-axis? Answer must within 0.5 degrees (include units with answer) F. A vector has...
A 100-N force has a horizontal component of 60 N and a vertical component of 80 N. The force is applied to a cart on a level frictionless floor. The cart starts from rest and moves 2.0 m horizontally along the floor due to this force. What is the work done by the 100-N force.
Use C Create a function that will take in a vector (three double variables) representing a position in meters. Calculate the magnitude of the vector in meters: sqrt(x * x + y * y + z * z) Calculate the magnitude of the vector in feet: magnitudeInMeters * 3.28084 Using passing by reference, return both outputs from the same function. Input: Three unique doubles, each one representing a component of the vector. Output: Magnitude of the vector in meters, magnitude...
A 100-N force has a horizontal component of 80 N and a vertical component of 60 N. The force is applied to a cart on a level frictionless floor. The cart starts from rest and moves 2.0 m horizontally along the floor due to this force. What is the cart's final kinetic energy? zero 200 J160 J120 J
Calculate the magnitude of the horizontal and vertical components of a vector that is 100 units long and is oriented at 45 degrees. I need help, on how to set this upand find the answer.
A block, of weight 100 N, rests on a horizontal surface. The coefficient of kinetic friction between the surface and the block is 0.5. A force, with horizontal component of 40 N and a vertical component of 60 N is applied to the block (i.e., F= 40i +60j Newtons). Calculate the acceleration of the block.
1) Calculate the components, Ax and Ay, of a vector A representing a displacement of 80 m in a direction 30 degrees south of east. 2) Given a vector B representing a displacement of 30 m north, calculate the vector sum of A + B, where A is the vector from Problem #1 above. (Remember to add components…..) 3) Calculate the x- and y-components of a vector, V having a magnitude of 100 m/s in a direction 45 degrees south...