How much power does a machine have that does 15204 J of work in 40 seconds?

What is the magnitude of fs on an object lying on a flat surface without moving, on

Degger [83]

The magnitude of the force acting on the object lying on a flat surface without moving is 10 N.

The given parameters;

magnitude of force on the object, F = 10 N

angle between the object and the horizontal flat surface = 0⁰

Apply Newton's second law of motion to determine the magnitude of the force on the object.

Due to the position of the object, the magnitude of the force acting on it is calculated as;

$\Sigma F_{net} = F\sin(\theta ) + F cos(\theta)\\\\\Sigma F_{net} = 10 sin(0) + 10cos(0)\\\\\Sigma F_{net} = 10 \ N$

Therefore, the magnitude of the force acting on the object is 10 N.

Learn more here: brainly.com/question/19887955

7 0

3 years ago

An 18.0-Newton wooden block slides across a horizontal wooden floor at constant velocity.

RoseWind [281]

Answer:

Hi Emily, I know you from school.

Explanation:

You're in my class. 2024 am i right

8 0

3 years ago

A spin balancer rotates the wheel of a car at 480 revolutions per minute. if the diameter of the wheel is 26 inches, what road s

Mariana [72]

Part A:
To answer this item, we need to convert the given revolutions per minute in speed expressed as miles per hour. In order to do so, we need to use the dimensional analysis and the appropriate conversion factor.

We calculate the circumference that is covered by the wheel.
C = πD
where C is the circumference and D is the diameter.

Substitute the known values,
C = π(26 in) = 81.68 inches

The speed tested is calculated below.
s = (81.68 inches/rev)(480 rev/min)(1 mil/63360 inches)(60 min/1 hr)
s = 37.127 mil/h

<em>ANSWER: 37.127 mil/h</em>

Part B:
Similar to what was done in Part A, the setting of the balancer is calculated below,
setting = (80 mil/h)(1h/60 min)(63360 in/1 mil)(1 rev/81.68 in)
setting = 1034.23 rev/min

<em>ANSWER: 1034.23 rev/min</em>

3 0

3 years ago

How are longitudinal and transverse waves alike? How are they different?

prohojiy [21]

SAME:
- They both transfer energy in waves
- They both have a frequency and period
- Both are mechanical waves and require a medium

DIFFERENT:
- Transverse waves move in a perpendicular direction
- Longitudinal waves move in a parallel direction

8 0

4 years ago

Read 2 more answers

If the rise and fall of your lungs is considered to be simple harmonic motion, how would you relate the period of the motion to

AURORKA [14]

Answer:

Breaths per minute is a frequency. The period is its reciprocal.

Explanation:

In simple harmonic motion, a period (T) is the time taken for one point to start in a position and reach that position again, in other words to complete a cycle or lapse. In this case, a period is the time one takes from starting to inspire the air to releasing all of it from the lungs.

In simple harmonic motion, the frequency (f) is how many times a point completes a cycle or lapse in one unity of time (could be one second, one minute, one hour, etc). In this case, the frequency is how many times one breathes in one minute. This is the breathing rate, since it is breathings per minute. Breaths per minute is a frequency.

Period (T) and frequency (f) relate to each other in the following formulae: $T=\frac{1}{f}$ or $f=\frac{1}{T}$ .

Therefore, breaths per minute is a frequency, and since it is related to the period, we say the period is reciprocal to it.

8 0

4 years ago