1) The tangent length of a simple curve was 202.12 m and the degree of curvature...

2) A circular curve of 800 m radius has been set out connecting two straights with...

2) A circular curve of 800 m radius has been set out connecting two straights with a deflection angle of 42°. It is decided, for construction reasons, that the midpoint of the curve must be moved 4 m towards the centre, i.e. away from the intersection point. The alignment of the straights is to remain unaltered. Calculate: (1) The radius of the new curve. (2) The distances from the intersection point to the new tangent points. (3) The station of...

1.)The common tangent of a certain compound curve is parallel to its long chord. Its 350m...

1.)The common tangent of a certain compound curve is parallel to its long chord. Its 350m long chord makes an angle of 18° and 10° with the shorter and longer tangents, respectively. a.)Determine the length of the common tangent. b.)Determine the length of the compound curve. 2.) A 4° simple curve has an intersection angle of 25°. Use arc basis. a.) Determine the distance from the midpoint of the long chord to the intersection of the tangents at PC and...

a horizontal curve has a tangent length of 500 ft is to be designed with deflection...

a horizontal curve has a tangent length of 500 ft is to be designed with deflection angle 90 the point of the beginning of the curve pc station is 100 determine the radius of the curve R determine the length of the curve L determine the station of the end of the curve point PT

Given: R = 300 m, PI chainage = 873.280 m, BC chainage = 639.246 m, and...

Given: R = 300 m, PI chainage = 873.280 m, BC chainage = 639.246 m, and EC chainage = 1036.744 m. 1.1 Determine the curve central angle, length, chord length, middle ordinate and external distance. (6) 1.2 Calculate the deflection angles at chainages EC and 650.392 m. (3) 1.3 Calculate the widening width at the curve if a Single Unit (SU) vehicle is used as design vehicle.

Horizontal Curve Delta= 88°55’23” Radius= 650.00’ BOC= Sta. 35+36.52 Compute the following: Length of curve, the...

Horizontal Curve Delta= 88°55’23” Radius= 650.00’ BOC= Sta. 35+36.52 Compute the following: Length of curve, the tangent distance, the chord, the station of the EOC and the station of a point on the curve with a delta of 45°.

Which curve is tighter (has a shorter radius)? a) A 3-degree curve (any definition) b) A...

Which curve is tighter (has a shorter radius)? a) A 3-degree curve (any definition) b) A 3.5-degree curve (arc definition) c) A 4-degree curve (chord definition)

A vertical parabolic curve is to connect a back tangent of -3% and a forward tangent...

A vertical parabolic curve is to connect a back tangent of -3% and a forward tangent of +4%. The change of grade is 0.60% per 20 m station. The stationing of PC is 17+428 with an elevation of 200 m. Compute the: a) length of the parabolic curve; b) stationing of PT (format: 00+000.00); c) elevation of PT; d) elevation of the lowest point of the curve; e) elevation at Station 17+544.67.

A pendulum has a length 1 m and a mass 1 kg. Assume Earth free fall...

A pendulum has a length 1 m and a mass 1 kg. Assume Earth free fall acceleration equal to 10 m/s^2. When the pendulum oscillates, the maximal deflection angle is +/- 1 degree. a) If the pendulum moves to Jupiter, what would be the period? b) Suppose at time t=0 the pendulum passes the lowest point 1.10 What is the pendulum’s velocity at t=0? c) What is the pendulum’s kinetic energy at t =0? d) Sketch the deflection angle as...

1) A plano-convex lens having a radius of curvature of r = 2.20 m is placed...

1) A plano-convex lens having a radius of curvature of r = 2.20 m is placed on a concave glass surface whose radius of curvature is R = 13.0 m as shown in the figure below. Assuming 515-nm light is incident normal to the flat surface of the lens, determine the radius of the 100th bright ring. cm 2) Light of wavelength 589.0 nm illuminates a slit of width 0.80 mm. (a) At what distance from the slit should a...

A diverging (convex) mirror has radius of curvature 5 cm. (a) What is its focal length?...

A diverging (convex) mirror has radius of curvature 5 cm. (a) What is its focal length? An object of size 1 cm is placed at distance (b) 5 cm and (c) 2.5 cm from the mirror. Calculate the distance and size of the image in each case, and state whether it's real or virtual. Draw ray diagrams to scale.