Determine the magnitude of the resultant force FR=F1+F2FR=F1+F2. Assume that F1F1F_1 = 235 lblb and F2F2F_2 = 350 lb

Answer:

its n

Explanation:

The acceleration of the boat is obtained as 1.6 ms-2.

We have to obtain the resultant force acting on the boat in order to obtain the acceleration of the boat.

Resultant force on the boat = √(25)^2 + (20)^2 = √625 + 400 = 32 N

Now recall that from Newton's laws; F = ma

m= mass of the body

a = acceleration of the body

32 N = 20Kg × a  

a =  32 N/20Kg

a = 1.6 ms-2

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Answer:

100m/s²

Explanation:

F=ma

50=0.5a

a=50/0.5

a=100

Answer:

a)  k = Mg / d , b)   v = √2gh , c)  v_{f} = [tex]\frac{2}{3} \ \sqrt{2gh}[/tex],  d)   x² + 6d x - [tex]\frac{8}{3}[/tex] dh = 0

e)the spring must compress a greater distance.

Explanation:

a) when the block of mass M is placed on the spring, we have an equilibrium condition,

             ∑ F  = 0

             [tex]F_{e}[/tex]- W = 0

             k d = Mg

             k = Mg / d

b) let's use the concepts of energy to find the velocity of the block just before the collision

starting point. Position when released

          Em₀ = U = m g h

lowest point. Right at the point of shock

          [tex]Em_{f}[/tex] = K = ½ m v²2

as there is no friction, energy is conserved

          Em₀ = Em_{f}

          mg h = ½ m v²

          v = √2gh

c) The velocity of the two blocks after the collision, we define a system formed by the two blocks, in such a way that the forces during the collision are internal and the moment is conserved

initial instant. Just before the crash

          p₀ = 2M v + M 0

final instant. Just after the shock, before the spring compression begins

         p_{f} = (2M + M) v_{f}

 the moment is preserved

          p₀ = p_{f}

          2M v = 3M v_{f}

          v_{f} = ⅔ v

          v_{f} = [tex]\frac{2}{3} \ \sqrt{2gh}[/tex]

d) now we work with the joined system after the collision, let's use the concepts of energy

starting point. After shock, before beginning spring compression

        Em₀ = K = ½ (3M) [tex]v_{f}^2[/tex]

        Em₀ = 3/2 M (\frac{2}{3} \ \sqrt{2gh})²

        Em₀ = 4/3 M gh

final point. With the spring fully compressed

       Em_f = K_e + U = ½ k x² + (3M) g x

in this case we have taken the zero of gravitational potential energy at the point where the blocks collide, as there is no friction, the energy is conserved

         Em₀ = Em_f

        4/3 M g h = ½ k x² + 3M g x

        ½ k x² + 3Mg x - 4/3 Mgh = 0

we substitute the expression for k

         [tex]\frac{1}{2}[/tex] ([tex]\frac{Mg}{d}[/tex]) x² + 3Mg x - [tex]\frac{4}{3}[/tex] Mgh = 0

          [tex]\frac{x^{2} }{2d}[/tex] + 3 x - [tex]\frac{4}{3}[/tex]h = 0

to find the value of the spring compression, the second degree equation must be solved

          x² + 6d x - [tex]\frac{8}{3}[/tex] dh = 0

         x = [-6d ±[tex]\sqrt{(36 d^{2} - 4 \frac{8}{3} dh) }[/tex] ] / 2

         x = [-6d ± 6d [tex]\sqrt{ 1 - \frac{32}{3 \ 36} \ \frac{h}{d} }[/tex]  ]/2

         x = 3d ( -1±  [tex]\sqrt{ 1 - 0.296 \frac{h}{d} }[/tex]  )

e) If the collision elastic force would not lose any part of the kinetic energy during the collision, therefore the speed of the block of mass M would be much higher and therefore the spring must compress a greater distance.

Answer:

6.25J

Explanation:

bc that’s the answer on khan

Two carts connected by a 0.50 m spring hit a wall, compressing the spring to 0.25 m. If the spring constant k is 200 N/m, then the elastic potential energy stored from the spring's compression would be 6.25 J.

The spring constant is used to define the stiffness of the spring, the greater the value of the spring constant stiffer the spring and it is more difficult to stretch the spring.

The mathematical relation for calculating the spring constant is as follows

F = - Kx

as given in the problem Two carts connected by a 0.50 m spring hit a wall, compressing the spring to 0.25 m. If the spring constant k is 200 N/m,

The elastic potential energy stored is given by

E = 1/2 kx²

  =0.5×200×0.25²

  =6.25 J

Thus, the elastic potential energy stored from the spring's compression would be 6.25 J.

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Answer:

70000N/m

Explanation:

Work is Force multiplied by Displacement.

Multiply 700 by 100 and you get 70000N/m

*Note: N is newtons and m is meters.

Answer: 7000N/m

Explanation: 700 x 100 = 7000

Answer:

[tex]T_B=(\frac{T}{\sqrt{8}})[/tex]

Explanation:

Distance of Planet A from Central star 2R

Time of Resolution T_A=T

Distance of Planet B from orbit star R

Generally the equation for Kepler's law of periods is given by

   [tex]\frac{T_A^2}{T_B^2}=\frac{R_A^3}{R_B^3}[/tex]

   [tex]T_B^2=T_A^2 \frac{R_A^3}{R_B^3}[/tex]

  [tex]T_B^2=T_A^2 (\frac{R_A}{R_B})^3[/tex]

  [tex]T_B^2=T^2 (\frac{R}{2R})^3[/tex]

  [tex]T_B^2=T^2 (\frac{1}{R})^3[/tex]

  [tex]T_B^2=(\frac{T^2}{8})[/tex]

Therefore the following expressions is correct for the number of hours it takes Planet B to complete one revolution around the star

  [tex]T_B=(\frac{T}{\sqrt{8}})[/tex]

The number of hours that it takes for planet B to complete one revolution around the star is : ( A ) (  [tex]\frac{T}{\sqrt{8} }[/tex] )

Given data :

Distance of Planet A from massive star = 2R

Time taken by Planet A to orbit the massive star = Tₐ

Distance of Planet B from massive star = R

Time taken by Planet B to orbit the massive star = T[tex]_{b}[/tex]

To determine the proper expression exhibiting the correct number of hours it will take for Planet B to complete a revolution

we will apply Kepler's law of periods

[tex]\frac{T^{2} _{a} }{T_{b} ^{2} } = \frac{R_{a} ^{3} }{R_{b} ^{3} }[/tex]

∴ [tex]T_{b} ^{2} = T_{a} ^{2} ( \frac{R_{a} }{R_{b} } )^{3}[/tex]

[tex]T_{b} ^{2} = T^2 ( 1/R)^3[/tex]

Hence T[tex]_{b}[/tex] = (  [tex]\frac{T}{\sqrt{8} }[/tex] )

There we can conclude that The number of hours that it takes for planet B to complete one revolution around the star is : ( A )  (  [tex]\frac{T}{\sqrt{8} }[/tex] )

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Answer:

The angle from the normal is 15.1°.

Explanation:

We can find the angle by using Snell's law:

[tex] n_{1}sin(\theta_{1}) = n_{2}sin(\theta_{2}) [/tex]

Where:

n₁: is the first medium (glass) = 1.5

n₂: is the second medium (air) = 1.0

θ₁: is the first angle (in the glass) = 10°

θ₂: is the second angle (in the air) =?

[tex] \theta_{2} = arcsin(\frac{n_{1}sin(\theta_{1})}{n_{2}}) = arcsin(\frac{1.5*sin(10)}{1.0}) = 15.1 ^{\circ} [/tex]

Therefore, the angle from the normal is 15.1°.

I hope it helps you!        

Potential energy is stored energy because it has the potential to do something which laters turns into kinetic energy which is the moving energy.

Answer:

2880 (m)

Explanation:

1. the formula of distance is: L=v*t, where L - the required distance; v - average velocity; t - elapsed time.

2. if t=1.2 hours, it means 72 minutes, then

3. L=40*72=2880 m.

This question is incomplete, the complete question is;

A 13 kg box rests on the flat surface. The coefficient of static friction and coefficient of kinetic friction is μ_s = 0.450 and μ_k = 0.380 respectively.

Let's say you got tired and you are now pushing with a force of 36 N. Find the acceleration of the box.

Answer: the acceleration of the box is 0.9548 m/s²    {backward}

Explanation:

Given that;

mass m = 13 kg

pushing the box with a force of 36 N

the acceleration of the box = ?

ones the box starts moving, kinetic frictional force starts acting.

so

f_k = μ_k × m × g

we substitute

f_k = 0.380 × 13 × 9.8

f_k = 48.412 N

force needed to keep it in motion is 48.412 N

so

Acceleration = Net Force / mass

Acceleration = (48.412 N - 36 N) / 13

Acceleration = 12.412 / 13

Acceleration = 0.9548 m/s²    {backward}

Therefore, the acceleration of the box is 0.9548 m/s²   {backward}

Given :

Initial speed, u = 0 m/s.

Final speed, v = 9 m/s.

Time taken to reach that speed, t = 2 sec.

To Find :

The acceleration of the athlete.

Solution :

We know, in uniform acceleration motion :

[tex]v= u+at\\\\a = \dfrac{v-u}{t}\\\\a = \dfrac{9-0}{2}\ m/s\\\\a = 4.5 \ m/s^2[/tex]

Therefore, acceleration of the athlete is 4.5 m/s².

Answer:

False, it is a fuse.

Explanation:

In electronics and electrical engineering, a fuse is an electrical safety device that operates to provide overcurrent protection of an electrical circuit. Its essential component is a metal wire or strip that melts when too much current flows through it, thereby stopping or interrupting the current. It is a sacrificial device; once a fuse has operated it is an open circuit, and must be replaced or rewired, depending on its type.

Fuses have been used as essential safety devices from the early days of electrical engineering. Today there are thousands of different fuse designs which have specific current and voltage ratings, breaking capacity and response times, depending on the application. The time and current operating characteristics of fuses are chosen to provide adequate protection without needless interruption. Wiring regulations usually define a maximum fuse current rating for particular circuits. Short circuits, overloading, mismatched loads, or device failure are the prime or some of the reasons for fuse operation.

A fuse is an automatic means of removing power from a faulty system; often abbreviated to ADS (Automatic Disconnection of Supply). Circuit breakers can be used as an alternative to fuses, but have significantly different characteristics.

Source: https://en.wikipedia.org/wiki/Fuse_(electrical)

A fuse is a small glass or plastic tube that contains a piece of wire. That wire is carefully calibrated so that it will only allow a certain level of current to pass through it. Any more, and the wire will melt from the heat, breaking the circuit. This means that if a power surge comes into your home, a circuit will be broken before it causes damage to your appliances.

A circuit breaker achieves the same thing, but by a different method. A circuit breaker also disconnects the circuits in your home if the current gets too large but does it using electromagnets. If the current gets high enough, then the electromagnet will become powerful enough to attract a contact and break the circuit that way.

Both circuit breakers and fuses can be used to help with another situation. If you have an appliance with a metal case and that appliance comes in contact with a live wire, it can cause you to electrocute yourself. But if that metal case is connected to a ground wire (the third pin in some plugs), then the electricity will flow through the ground wire, through the circuit breaker or fuse box, and break the circuit, stopping you from potentially getting electrocuted.

Source: https://study.com/academy/lesson/the-differences-between-fuses-circuit-breakers.html

Answer:

This question is incomplete

Explanation:

This question is incomplete because of the absence/omission of the wavelength but the completed question is attached below.

The formula for frequency is f = c/λ

where f is the frequency (unknown)

c is the speed of light (3.0 × 10⁸ m/s)

λ is the wavelength (599 nm)

f = (3 × 10⁸) ÷ 599

f = 500834.73 Hz or 5 × 10⁵ Hz

Answer: 4.6

Explanation:

Answer:

4.6

Explanation:

Answer:

Magnetism is the force exerted by magnets when they attract or repel each other

hope it helps you:)

Answer:

Its mass increases and weight decreases. Its mass remains constant and weight decreases.

Squamous cells, which are tiny, flat cells that resemble fish scales, are present in the tissue that makes up the skin's surface, and the lining of the digestive and respiratory systems.

Simple squamous epithelial cells serve as filtration and diffusion mediators. They enable facile transmembrane transit of tiny molecules (i.e., across the membrane and through the cell) because of their straightforward and thin construction.

The centre of squamous epithelial cells, which are big, flattened cells loaded with cytoplasm, is a small, spherical nucleus. They are spherical and unevenly flat.

Therefore, The lumen is a free area that is surrounded by simple squamous epithelium. Simple squamous cells join together to produce a layered structure.

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This question is not complete, the complete question is;

Amateur radio operators in the United States can transmit on several bands. One of those bands consists of radio waves with a wavelength near 20 m . Calculate the frequency of these radio waves.

Answer: frequency of the radio waves is 15 MHz

Explanation:

Given that;

wavelength λ = 20 m

we know that; Speed of light C = 3 × 10⁸ m/s

frequency f = ?

we know that;

frequency f = Speed of light C / wavelength λ

so we substitute

frequency f = (3 × 10⁸m/s) / (20m)

frequency f = 15 × 10⁶ Hz

we also know that 1 Hertz = 0.000001 Megahertz

so

frequency f = 15 × 10⁶ Hz × 0.000001

frequency f = 15 MHz

Therefore frequency of the radio waves is 15 MHz

Answer:

26.17

1.17

30.86

5.86

Explanation:

said they were correct on my assignment

Answer:

A circle.

Explanation:

When a charged particle moves perpendicularly to a uniform magnetic field, what best describes its trajectory is a circle.

This ultimately implies that, a charged particle moving perpendicularly to a uniform magnetic field would undergo or experience a uniform circular motion and this simply, describes its trajectory.

Additionally, the frequency would be directly proportional to the mass of the charged particle.

Answer:

My youngins heartless, so they ain't playin' no games

We really want 'em dead, he got hit up close range

He fuc__ked up in the head, he wanna see some more brains

On that corner, I couldn't stay up out that do_0pe game

My cousin got indicted dealin' coc__aine

She an Insta>:gram addict, she want more fame

I used to starve, now I'm blowing up like pro__pane

Told my inner self, "I promise you I won't change"

Explanation:

Answer:

1.9981 * 10^24 Kg

Explanation:

Given that

R = 15 * 10^3

ω = 1 rev/s = 2π rad/s

From;

g =GM/R^2  - Rω^2

If g = 0

M = R ^3ω^2/G

M = (15 * 10^3)^3 * (2π)^2/6.67 * 10^-11

M = 1.9981 * 10^24 Kg

Answer:0.02088056

Explanation:

The metric system is an internationally used system of checking various quantiles if weight tat includes the length, temperature, mass, etc., and is used in everyday life.

Hence the option D is correct.

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Answer: Work can be calculated with the equation: Work = Force × Distance. The SI unit for work is the joule (J), or Newton • meter (N • m). One joule equals the amount of work that is done when 1 N of force moves an object over a distance of 1 m.

Explanation:

Answer:Work can be calculated with the equation: Work = Force × Distance. The SI unit for work is the joule (J), or Newton • meter (N • m). One joule equals the amount of work that is done when 1 N of force moves an object over a distance of 1 m.

Explanation:

Answer:

Spaceship Vibes

Explanation:

Song written by NoCap

all except the rubber boots.

The answers should be The power lines themselves and The metal tools the worker uses (the 1st and 4th choices).

(For anyone curious, the image I attached to this answer is the image given for this problem.)

Answer:

tow a has the most power but tow b does the most work

Explanation:

Tow A with a heavier load pulls as fast as Tow B, Then A does The most work, and A also has more power.

It is defined as the Rate of work done or the ratio of work done and time.

If the amount of work(W) is down over a time interval of (t) then the power is given by,

P=W/t

Where W=is  work done by a force is known as a product of force and distance.

t= time interval in s.

Force

F= force which is known as the rate of momentum.=mv/t

where m= mass of the body in kg.

v= velocity in m/s.

Here in the question, given that A pulls heavier weight than B that means A applied more force which results in more work.

When more work is done by A than by B then the power of an also greater than B because they move at the same velocity.

Hence, The Work done as well as the power of A is more.

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