Ask question

Ask question

All categories

Vladimir79 [104]

2 years ago

13

A bike first accelerates from 0.0 m/s to 5.0 m/s in 4.5s, then continues at this constant speed for another 4.5 s. What is the t

otal distance traveled by the bike?

2 answers:

vova2212 [387]2 years ago

5 0

Hello!

A bike first accelerates from 0.0 m/s to 5.0 m/s in 4.5 s, then continues at this constant speed for another 4.5 s. What is the total distance traveled by the bike ?

* Determine the acceleration of the bike....

We have the following data:

Vf (final velocity) = 5.0 m/s

Vi (initial velocity) = 0 m/s

ΔV (speed interval) = Vf - Vi → ΔV = 5 - 0 → ΔV = 5 m/s

ΔT (time interval) = 4.5 s

a (average acceleration) = ? (in m/s²)

Formula:

$\boxed{a = \dfrac{\Delta{V}}{\Delta{T^}}}$

Solving:

$a = \dfrac{\Delta{V}}{\Delta{T^}}$

$a = \dfrac{5\:\dfrac{m}{s}}{4.5\:s}$

$\boxed{a \approx 1.111\:m/s^2}}\longleftarrow(acceleration)$

* The total distance traveled ?

We have the following data:

Vi (initial velocity) = 0 m/s

t (time) = 4.5 s

a (average acceleration) = 1.111 m/s²

d1 (distance traveled) = ? (in m)

By the formula of the space of the Uniformly Varied Movement, it is:

$d_1 = v_i * t + \dfrac{a*t^{2}}{2}$

$d_1 = 0 * 4.5 + \dfrac{1.111*(4.5)^{2}}{2}$

$d_1 = 0 + \dfrac{1.111*20.25}{2}$

$d_1 = \dfrac{22.49775}{2}$

$\boxed{d_1 \approx 11.25\:m}\longleftarrow(distance)$

* Then continues at this constant speed for another 4.5 s, then:

datos:

d2 (distance traveled) = ? (in m)

s (speed) = 5.0 m/s (constant speed)

t (time) = 4.5 s

Solving:

$s = \dfrac{d_2}{t}$

$d_2 = s*t$

$d_2 = 5\:\dfrac{m}{\diagup\!\!\!\!s} *4.5\:\diagup\!\!\!\!s$

$\boxed{d_2 = 22.5\:m}\longleftarrow(distance)$

* Therefore, what is the total distance traveled by the bike?

$d_{total} = d_1 + d_2$

$d_{total} = 11.25\:m+ 22.5\:m$

$\boxed{\boxed{d_{total} = 33.75\:m}}\:\:\:\:\:\:\bf\purple{\checkmark}$

Answer:

The total distance traveled is 33.75 meters

________________________

$\bf\purple{I\:Hope\:this\:helps,\:greetings ...\:Dexteright02!}\:\:\ddot{\smile}$

Veseljchak [2.6K]2 years ago

3 0

Assuming constant acceleration, the distance travelled in the first 4.5s is:

0.5*5.0*4.5 = 11.25m

The distance travelled in the next 4.5s is:

5.0*4.5 = 22.5m

The total distance travelled is:

11.25 + 22.5 = 33.75m

You might be interested in

A dolphin swims due east for 1.90 km, then swims 7.20 km in the direction south of west. What are the magnitude and direction of

kykrilka [37]

Answer:

magnitude = 7.446 km, direction = 75.22° north of east

Explanation:

From the questions,

To get the the magnitude of the resultant vector we use Pythagoras theorem

a² = b²+c²

From the diagram,

y² = 1.9²+7.2²

y² = 55.45

y = √(55.45)

y = 7.446 km.

The direction of the dolphin is given as,

θ = tan⁻¹(7.2/1.9)

θ = tan⁻¹(3.7895)

θ = 75.22° north of east

Hence the magnitude of the resultant vector = 7.446 km, and it direction is 75.22° north of east

3 0

2 years ago

You've always wondered about the acceleration of the elevators in the 101 story-tall Empire State Building. One day, while visit

love history [14]

To develop this problem we will proceed to convert all units previously given to the international system for which we have to:

$140 lb = 63.5 kg \rightarrow 63.5kg (9.8m/s) =622.3 N$

$120 lb = 54.4 kg \rightarrow 54.4kg (9.8m/s)= 533 N$

$170 lb = 77.1 kg \rightarrow 77.1 kg (9.8m/s) =756 N$

PART A ) From the given values the minimum acceleration will be given for 120Lb and maximum acceleration when 170Lb is reached therefore:

$F = 756 - 622.3$

$F = 133.7N$

Through the Newtonian relationship of the Force we have to:

$F= ma$

$a = \frac{F}{m}$

$a = \frac{133.7}{63.5}$

$a = 2.1m/s^2$

PART B) For the maximum magnitude of the acceleration downward we have that:

$F = 622.3 - 533$

$F = 89.3N$

Through the Newtonian relationship of the Force we have to:

$F= ma$

$a = \frac{F}{m}$

$a = \frac{89.3}{63.5}$

$a = 2.1m/s^2$

$a = 1.04 m/s^2$

7 0

2 years ago

When a particle is a distance r from the origin, its potential energy function is given by the equation U(r)=kr, where k is a co

Reika [66]

Answer

The answer and procedures of the exercise are attached in the following archives.

Step-by-step explanation:

You will find the procedures, formulas or necessary explanations in the archive attached below. If you have any question ask and I will aclare your doubts kindly.

5 0

2 years ago

The food calorie, equal to 4186J , is a measure of how much energy is released when food is metabolized by the body. A certain b

vovangra [49]

<h2>The hiker will go up to 850 m on the hill</h2>

Explanation:

The total energy gained by the hiker = 140 x 4186 J

This energy is consumed in the potential energy acquired , while climbing up the hill.

The potential energy P.E = mass of hiker x acceleration due to gravity x height

Thus

140 x 4186 = 69 x 10 x h

or h = $\frac{4186x140}{69x10}$ = 850 m

If the 20% of the total energy is used

the height h₀ = $\frac{0.2x4186x140}{69x10}$ = 170 m

5 0

2 years ago

The diagram shows a heat engine. In which area of the diagram is unusable thermal energy detected?

Marat540 [252]

Nope, I disagree with the former answer. The answer is definitely Z. <u>W area</u> (boxed with red outline) is represented as the hot reservoir while <u>Z area</u> is the cold reservoir (boxed with blue outline). X area is the heat engine itself and Y area is the work produced from thermal energy from hot reservoir. Typically, all heat engines lose some heat to the environment (based from the second law of thermodynamics) that is symbolically illustrated by the lost energy in the cold reservoir. This lost thermal energy is basically the unusable thermal energy. The higher thermal energy lost, the less efficient your heat engine is.

7 0

2 years ago

Read 2 more answers