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2 years ago

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A rocket starts from rest and moves upward from the surface of the earth. For the first 10.0 s of its motion, the vertical accel

eration of the rocket is given by ay=(2.70m/s3)t, where the +y-direction is upward.What is the speed of the rocket when it is 325 m above the surface of the earth?

2 answers:

Inessa [10]2 years ago

8 0

Explanation:

The vertical acceleration of the rocket is given by :

$a_y=2.7t$

Acceleration is given by, $a=\dfrac{dv}{dt}$

$\dfrac{dv}{dt}=2.7t$

$v=\int\limits{2.7\ t.dt}$

$v=\dfrac{2.7t^2}{2}$ ..............(1)

Velocity is given by, $v=\dfrac{dx}{dt}$

$\dfrac{dx}{dt}=\dfrac{2.7t^2}{2}$

$x=\int\limits{\dfrac{2.7}{2}t^2}.dt$

$x=\dfrac{2.7}{6}t^3$

From above equation, we can find the value of t at x = 325 m

$325=\dfrac{2.7}{6}t^3$

t = 8.97 s

Now put t = 8.97 s in equation (1) as :

$v=\dfrac{2.7(8.97)^2}{2}$

v = 108.62 m/s

So, the speed of the rocket when it is 325 meters above the surface of earth is 108.62 m/s. Hence, this is the required solution.

Mazyrski [523]2 years ago

5 0

$a = 2.7t$
$v = \int\limits^t_0 {2.7t} \, dt = \frac{2.7}{2} t^2$
$x = \int\limits^t_0 {\frac{2.7}{2} t^2} \, dt = \frac{2.7}{6} t^3$

Solve for v with x = 325.

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Answer:

For series connected resistors I = 0.5A

For parallel connected resistors I = 8.5A

Explanation:

Since the diagram is not available, our solution will be divided into two;

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Where E = 12volts

Rt can be gotten depending on the arrangements of the resistors which can either be in series or parallel.

If the resistors are in series, their equivalent resistance gives;

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The current I will be;

I = E/Rt = 12/24

I = 0.5A

If the connection is in series, the total current in the circuit will be 0.5A.

For resistance in parallel;

1/Rt = 1/4Ω+1/6Ω+1/8Ω+1/6Ω

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1/Rt = 17/24

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Using the superposition method, calculate the current through R5 in Figure 8-71

Vladimir79 [104]

by superposition method we can find current in R5

here first let say only 2V battery is present in the circuit

now the equivalent resistance to be found for which we can say

2.2 k ohm and 1 k ohm is connected in parallel

$r_1 = \frac{2.2 * 1}{2.2 + 1}$

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$r_2 = \frac{2.2* (1+0.6875)}{2.2 + (1+0.6875)}$

$r_2 = 0.95 k ohm$

now the current flowing through the battery is

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now this will divide into R3 and R2 so current flowing in R3 will be

$i_1 = \frac{2.2}{2.2+1.6875}*1.02 = 0.58 mA$

now this will again divide in R4 and R5

so current in R5 will be

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$i_5 = 0.18 mA$

now when only 3 V battery is present in the circuit

R1 and R2 is in parallel and then it is in series with R3

so parallel combination will be

$r_1 = \frac{1*2.2}{2.2 +1} = 0.6875k ohm$

also after its series with R3

$r_2 = 1 + 0.6875 = 1.6875 k ohm$

now it is in parallel with R5 on other side

$r_3 = \frac{1.6875 * 2.2}{1.6875 + 2.2} = 0.95 k ohm$

now current through the battery will be given as

$i = \frac{3}{1 + 0.95} = 1.53 mA$

now it is divide in r2 and R5

so current in R5 is given as

$i_5 = \frac{r_2}{r_2 + R_5}*i$

$i_5 = \frac{1.6875}{2.2 + 1.6875} * 1.53$

$i_5 = 0.67 mA$

now the total current in R5 will be given by super position which is

$i = 0.67 + 0.18 = 0.85 mA$

so there is 0.85 mA current through R5 resistance

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Romashka [77]

Answer:

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2) This is, the person does not feel a pressure upward, which is he/she does not feel the weight: freefalling is a situation of apparent weigthlessness.

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Therefore, you conclude that, assuming no air resistance, a person in this ride experiencing apparent weightlessness.

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alexira [117]

Answer:

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