A motorcycle and a car are travelling along a staright road. At t = 0 the...

A car starts from rest and accelerates at a constant rate travelling a distance of 210...

A car starts from rest and accelerates at a constant rate travelling a distance of 210 m in 14.9 s. The car continues to accelerate at the same rate for an additional 199 m. What is the speed (in m/s) of the car after it has travelled the (210+199) m?

A car starts from rest and accelerates at a constant rate travelling a distance of 160...

A car starts from rest and accelerates at a constant rate travelling a distance of 160 m in 6 s. The car continues to accelerate at the same rate for an additional x m. If the speed of the car after it has travelled the (160+ x) m is 92 m/s, how far x (in m) did the car continue at a constant acceleration?

In the attached figure, car B advances at 72.0 km / h when it begins to...

In the attached figure, car B advances at 72.0 km / h when it begins to brake with a constant acceleration aB = -6.00 m / s2. The car A behind, at a distance d = 20.0 m from the car B, also advances to 72.0 km / h and when seeing that the car B brakes, it also brakes with a constant acceleration aA = -4.00 m / s2. However, the driver of car A has a reaction time...

A car starts from a state of rest and drives along a level, straight road. For...

A car starts from a state of rest and drives along a level, straight road. For the first 30 s, the car speeds up with a constant acceleration of 2.50 m/s 2 , after which it continues at the constant velocity that it has acquired for the next 5.00 minutes, at which time the brakes are applied, and there is an acceleration of -2.2 m/s 2 until the car stops. What is the total displacement of the car from its...

A Honda Civic travels in a straight line along a road. Its distance x from a...

A Honda Civic travels in a straight line along a road. Its distance x from a stop sign is given as a function of time t by the equation x(t)= α t2−β t3, where α = 1.52 m/s2 and β = 5.35×10−2 m/s3 Calculate the average velocity of the car for the time interval t=0 to t1 = 1.95 s . Calculate the average velocity of the car for the time interval t=0 to t2 = 4.05 s Calculate the...

A Honda Civic travels in a straight line along a road. Its distance x from a...

A Honda Civic travels in a straight line along a road. Its distance x from a stop sign is given as a function of time t by the equation x(t)= α t2− β t3, where α = 1.48 m/s2 and β = 5.40×10−2 m/s3 Calculate the average velocity of the car for the time interval t=0 to t1=2.00 s . vv = nothing m/sm/s SubmitRequest Answer Part B Calculate the average velocity of the car for the time interval t=0...

Two cars drive on a straight highway. At time t=0, car 1 passes mile marker 0...

Two cars drive on a straight highway. At time t=0, car 1 passes mile marker 0 traveling due east with a speed of 20.0 m/s . At the same time, car 2 is 1.0 km east of mile marker 0 traveling at 26.0 m/s due west. Car 1 is speeding up with an acceleration of magnitude 0.30 m/s2 , and car 2 is slowing down with an acceleration of magnitude 0.50 m/s2 . At what time do the cars pass...

A car travels along a straight road. It starts from rest and accelerated in two stages....

A car travels along a straight road. It starts from rest and accelerated in two stages. Each stage takes the same amount of time. In the first stage, the car speeds up with acceleration 3.0 m/s^2. At the end of the second stage, the cars velocity magnitude is 2.5 times greater than it is at the end of the first stage. Find the acceleration magnitude in the second stage.

at the origin, car A starts from rest and accelerates at a rate of 0.9m/s2 and...

at the origin, car A starts from rest and accelerates at a rate of 0.9m/s2 and moves to the right. at the instant car A starts, car B passes the origin at a velocity of 28 m/s to the right and immediately slows down at a rate of 0.7m/s2. take right as +X. A) find the time t at which car A catches up with car B B) sketch the position vs time graph of car A and car B...

A man is travelling on a flat car which is moving up a plane inclined at...

A man is travelling on a flat car which is moving up a plane inclined at cos e = 4/5 to the horizontal with a speed 5 m/s. He throws a ball towards a stationary hoop located perpendicular to the incline in such a way that the ball moves parallel to the slope of the incline while going through the centre of the hoop. The centre of the hoop is 4 m high from the man's hand calculate the time...