A car's speed is given by the relationship v = 8.0t² m/s. If the car's total...
The boat is traveling along the circular path with a speed of v=(0.0625t2) m/s, where t is in seconds. (Figure 1) Part A If ? = 42 m , determine the magnitude of its acceleration when t = 12 s . Express your answer to three significant figures and include the appropriate units.
The small block P travels with constant speed v = 1.70 m/s in the circular path of radius r = 1.32 m on the inclined surface. If 0 = 0 at time t = 0, determine the x-, y, and z-components of velocity and acceleration at time t = 2.1 s. Answers: At t = 2.1 s -0.072097 m/s, ax = i -1.9656 m/s2 1.698106 m/s, ay = -0.10331 m/s2 0.035164 m/s, a, = 0.958695573 m/s2 N
rate 1. True or False? Explain: a. If a car's speedometer is constant, then the car cannot be accelerating. b. Ifan =0 for a moving object, then the object cannot be accelerating. c. The arc length of a space curve depends on the parameterization. d. The curvature of a circle is the same as its radius. e. The normal component of acceleration is a function of both speed and curvature. 2. Projectile Motion: A projectile is launched with an initial...
part 1 of 1 8 points A car is moving at 17 m/s along a curve on a horizontal plane with radius of curvature 46 m. The acceleration of gravity is 9.8. What is the required minimum coefficient of static friction between the road and the car's tires to keep the car from skidding? Question 13 part 1 of 1 8 points A 36 g ball is fastened to one end of a string 79 cm long and the other...
Problem 2: A particle is traveling with uniform (constant) speed, v. Answer the following questions carefully a. If the particle is traveling along a straight line path, with this constant speed, what is the magnitude of its acceleration vector? What is the direction of the acceleration vector? b. If the particle is traveling along a circular path of radius of curvature, p. what is the magnitude of the acceleration vector? What is the direction of the acceleration vector? Why is...
The car has a speed of 100 km/h at A and 50 km/h at C. The path distance from A to C is 120m. The total acceleration of the car at A is 3 m/s^(2). The car has a constant tangential acceleration. 1) determine the radius of curvature of the road at A. 2) determine the total acceleration at C. 60 mC 60 m 150 m 火
A racing car travels with a constant tangential speed of 75.0 m/s around a circular track of radius 625 m. Find |(a) The magnitude of the car's total acceleration and |(b) The direction of its total acceleration relative to the radial direction.
A car is rounding an unbanked circular turn with a speed of v = 35 m/s. The radius of the turn is r = 1500 m. What magnitude a_z of the car's centripetal acceleration? 1.8 times 10^6 m/s^2 0.82 m/s^2 0.023 m/s^2 5.4 times 10^-4 m/s^2
1. A test car moves at a constant speed of 10 m/s around a circular road of radius 50 m. Find the car's centripetal, tangential and total acceleration.
Total credits -20 points: Show detailed calculations and anal A particle is constrained to travel along the path (see picture below). If x = (4t. ) in seconds, determine: m, where tis (1) Magnitude of and at time 1 s. (2) Magnitude of a and ay, at timet 1 s. 11 points for V and a (3) Radius of curvature at time t = 1 s. 9 points for r and an (4) Magnitude of Normal component of acceleration an...