Determine the horizontal and vertical component of reaction at pin A, B and C

a.) Vector A is drawn on this page/screen with horizontal component 1.57 and vertical component 1.55....

a.) Vector A is drawn on this page/screen with horizontal component 1.57 and vertical component 1.55. Vector B is drawn on this page/screen with horizontal component 1.47 and vertical component 1.6. The magnitude of their dot product is: b.) An object is dropped from rest from 5.29m. How many seconds does it take to fall to the ground? (Use g=9.8m/s^2) c.) US food labels measure food chemical energy in Calories, where 1Cal=4198J.A "healthy diet" is supposed to be something around...

The initial path of a rocket is 40° above the horizontal, and the horizontal component of...

The initial path of a rocket is 40° above the horizontal, and the horizontal component of the rocket's velocity is 320 m/s. What is he initial vertical component of the rocket's velocity?

consider the function y = 6x^2 /x+2   a) determine the vertical and horizontal asymptotes.   b) complete...

consider the function y = 6x^2 /x+2   a) determine the vertical and horizontal asymptotes.   b) complete the first and second derivative test? C? Draw the the graph?

A hunter standing on a tall tower shoots an arrow into the air. The vertical component...

A hunter standing on a tall tower shoots an arrow into the air. The vertical component of arrows initial velocity is 10m/s and points upward. The horizontal component of arrows initial velocity is vi and points East. [If possible include a diagram, not necessary however] a) How long does it take the arrow to reach max. height? b) After the arrow is shot, it travels for a while and after some time the horizontal distance traveled by the arrow is...

Astronaut Mary is standing at the edge of a vertical cliff a distance h above horizontal...

Astronaut Mary is standing at the edge of a vertical cliff a distance h above horizontal ground on a distant planet. She performs an experiment where she throws a magnetized steel ball horizontally off the cliff with initial speed v. After leaving Mary’s hand, the ball undergoes a horizontal displacement D before landing on the ground. Only gravity acts on the ball during this flight. Mary repeats this experiment. However, during this 2nd experiment, a strong magnet is placed nearby...

Determine horizontal and vertical asymptotes of the graph of this function. Then sketch and explain steps...

Determine horizontal and vertical asymptotes of the graph of this function. Then sketch and explain steps to the graph. f(x)= (4x)/(x^2 +2)

Respond to the following in a minimum of 175 words: Why does the vertical component of...

Respond to the following in a minimum of 175 words: Why does the vertical component of velocity for a projectile change with time, whereas the horizontal component of velocity does not? How can the conservation of energy help us explain these concepts?

When you throw a ball horizontally, the vertical component of the ball’s speed ... A. continuously...

When you throw a ball horizontally, the vertical component of the ball’s speed ... A. continuously increases. B. remains zero. C. continuously decreases. D. first decreases and then increases. E. remains constant When you throw a ball horizontally, the horizontal component of the ball’s speed ... A. remains constant. B. remains zero. C. continuously increases. D. continuously decreases. E. first decreases and then increases. I know the answers are both A, but can someone explain why??

Johan throws a baseball with a horizontal component of velocity of 25 m/s. It takes 3.00s...

Johan throws a baseball with a horizontal component of velocity of 25 m/s. It takes 3.00s to come back to its original height. Calculate its horizontal range (x), its initial vertical component of velocity (vy) and its initial angle of projection.

Given the principle stresses of σ1 =100 MPa (vertical) and σ3 = 20 MPa (horizontal), determine...

Given the principle stresses of σ1 =100 MPa (vertical) and σ3 = 20 MPa (horizontal), determine the normal and shear stresses on a fault plane that dips 30° from horizontal.