in a simple electric circuit, ohm's law states that , where v is the voltage in volts, i is the current in amperes, and r is the resistance in ohms. assume that, as the battery wears out, the voltage decreases at 0.03 volts per second and, as the resistor heats up, the resistance is increasing at 0.01 ohms per second. when the resistance is 100 ohms and the current is 0.02 amperes, at what rate is the current changing? amperes per second

The equation used to calculate required fastener torque as a function of desired preload and bolt size is τ = K D [tex]F_{i}[/tex].

τ = K D [tex]F_{i}[/tex]

[tex]F_{i}[/tex] = σ[tex]_{t}[/tex] * A[tex]_{t}[/tex]

σ[tex]_{t}[/tex] = 0.9 * σ[tex]_{y}[/tex]

τ = Torque

K = Torque co-efficient

D = Nominal bolt diameter

[tex]F_{i}[/tex] = Desired preload

σ[tex]_{t}[/tex] = Tensile stress

A[tex]_{t}[/tex] = Tensile stress area

σ[tex]_{y}[/tex] = Ultimate yield strength

Therefore, the equation used to calculate required fastener torque as a function of desired preload and bolt size is τ = K D [tex]F_{i}[/tex].

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The radius of its circular orbit is calculated to be 1/B √(2qV/m)

If the field is vacuum, then the magnetic field is dominant factor determining the motion. As the magnetic force is perpendicular to the direction of travel, a charged particle follows a curved path in a magnetic field. The particle then continues to follow curved path until it forms a complete circle. As the magnetic force is perpendicular to velocity, so that no work is done on the charged particle. The kinetic energy of the particle and speed remain constant. The direction of motion is usually affected but not the speed.

The speed of particle just before entering into magnetic field is v₀

qV = 1/2*m *v₀²

v₀= √(2qV/m)

Radius of the circular path is given by

 r= mv₀/qB

r=m/qB √(2qV/m)

=1/B √(2qV/m)

Radius of circular orbit = 1/B √(2qV/m)

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Answer: the force required to begin moving the book is 7.93 N.

Explanation:The concepts required to solve this problem is forces.

Initially, calculate the force required to begin moving the book by using the expression for the static frictional force. Later, calculate the force required to keep the book moving by using the expression for the kinetic friction.

Here,

is the coefficient of static friction and N is the normal force.

Here,

is the coefficient of kinetic friction and N is the normal force.

Step: 1

The expression for the force required to begin moving the book is,

The normal force acting on the book ,

Substitute mg for N in the equation

.

Substitute 0.442 for

, 1.83 kg for m,

for g in the above equation.

Therefore, the force required to begin moving the book is 7.93 N.

Explanation:

The external force is required to move the book on the surface of the desk is known as static frictional force.

The forces acting on the book along the y direction is,

By using Newton’s second law of motion the net forces acting along y direction is,

As the book is along the x direction means that there is no motion of the book along the y direction. Hence the acceleration of the book is equal to zero.

Now the normal force is equal to the weight of the book.

Hint:

Calculate the force required to keep the book moving by using the expression for the kinetic friction.

Step: 2

The force required to keep the book moving ,

The normal force acting on the book ,

Substitute mg for N in the equation

.

Substitute 0.240 for

, 1.83 kg for m,

for g in the above equation.

Therefore, the force required to keep the book moving is 4.30 N.

The kinetic frictional force acts on the object if the object is in motion.

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If a 1.83 kg book is placed on a flat desk, 10.089 N of force is required to start moving the book. If the book and desk experience static friction of 0.442 and kinetic friction of 0.240, respectively.

A force that acts between moving surfaces is referred to as kinetic friction. A force acting in opposition to the direction of a moving body on the surface is felt. The two materials' coefficient of kinetic friction will determine how much force is applied.

The book needs force to move

Ff = N * s Ff = (1.83 kg)(9.81 m/s2)(0.562)=10.089 N

The book needs force to continue.

Ff = (1.83 kg) (9.81 m/s2) (0.305) = 5.47 N

The force that prevents a sliding object from moving is known as friction. Everything has kinetic friction, which prevents two or more objects from moving in unison. In contrast to how an object would like to slide, the force operates in that direction. When a car needs to stop by kinetic friction, we engage the brakes, and that's when friction is created. Again, friction is to blame when one wishes to stop abruptly while walking. however, when we are forced to stop in the middle of a puddle.

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Answer:

18 m

Explanation:

Velocity = distance / time

v = d/t

d = vt

d = (6 m/s) (3  s)

d = 18 m

Hope that helps

Answer:

1.45 N

Explanation:

Newton's Second Law: F=ma

Convert 145 grams to kilograms

0.145kg*10m/s^2

1.45 N

Answer:

the answer is A

Explanation:

I took the test

Answer:

A

Explanation:

Answer: Density

Explanation:  

I remember learning it in 9th-grade physic class.

Applied voltage across the capacitor is , V​​​​​​o = 15 v

Capacitance , C = 6 × 10-6 F

Resistance in the circuit , R = 5 M.ohm = 5 × 106 ohm.

• Maximum charge in the capacitor is,

Q = CV​​​​​o = (6×10-6 F)×(15 v) = 90 × 10-6 c

20% of maximum charge Q is, q = 0.2 ×(90×10-6) c

q =18×10-6 c.

when charge is 20% of maximum charge , voltage across the capacitor is,

V = q/C

V = (18 × 10-6 c)/(6 × 10-6 F) = 3 v

• At that time , voltage of the battery is V​​​​​​o = 15 v

Voltage across the capacitor is , V = 3 v

Resistance in the circuit, R = 5 × 106 ohm

So, applying ohm's law :

Current in the circuit, I = (V​​​​​​o - V)/R

> I = (15 - 3)/(5×106) A

> I = 2.4 × 10-6 A = 2.4 \muA

The current in the circuit is  2.4  \muA .

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The buoyant force  is same for both boxes. Steel box sinks because its density is higher than water and the density of wood is lower than water.

An object that is fully or partially submerged in a fluid will experience an upward push called the buoyant force. Another name for this upward thrust is up thrust. An object's propensity to float in a fluid is known as buoyancy. Any object submerged in a liquid or gas experiences an upward force known as the buoyant force when there is gravity present.

When an object is submerged in a static fluid, pressure differences acting on its opposing sides provide buoyancy. water density is less. After reading this article, you will be able to describe the buoyant force and the rationale behind why fluids push submerged things higher. Let's discuss the definition of buoyancy and its various manifestations.

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1) Magnitude of the magnetic field equals (permeabilityoffrespace) (currentmagnitude)

2π(distance)

B = μ02πr

Developing the Formula

B = denotes the strength of the magnetic field in Tesla (T)

The permeability of open space (4107Tm/A) is shown by the symbol 0

Electric current strength is expressed as I in terms of amperes (A)

R stands for the meters-long distance (m)

2) the magnetic force per unit length of wire in a uniform field is  

F/l =IB sinθ .

force on a length  l

current  I

uniform magnetic field  B ,

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Zero the dynamic sensor is important because of its sensitivity, resolution, range, zero drift and repeatability.

Dynamic applications describe cyclical, quick measuring processes like those frequently seen in presses. In dynamic applications, it's crucial to tare the zero point at regular intervals to prevent the measuring signal from wandering.

The input for automated zero point adjustments is provided by the strain transducers. The PLC can be used to start the zero point adjustment. The signal is reset (pulled to zero) and the zero point adjustment is performed if the input is pulled to 3 V.

The sensor is in measuring mode if the input is open. Instead of using "Active-Low-Levels," the reset logic is also possible with "Active-High-Levels".

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Answer: The nebular theory states that our solar system formed from the gravitational collapse of a giant interstellar gas cloud—the solar nebula. – (Nebula is the Latin word for cloud.) Kant and Laplace proposed the nebular hypothesis over two centuries ago.

Explanation:

The distance covered by the train is 225m.

Given,

u = 36km/hr = 10ms^(-1)

a = 5ms^(-2) ,t = 5sec

According to Newton's first law of motion:

v = u + (a × t)

v = 10 + (5 × 5) = 35ms^(-1)

According to Newton's third law of motion:

(v)²- (u)² = 2as

(35)² - (10)² ÷ (2 × 2.5) = s

s = 225m

The final velocity of the train is derived using Newton's first law of motion. Where, u = initial velocity, a = acceleration,v = final velocity, and t = time. The equations of motion define the behavior of the physical schema in order of motion.

Then find the distance covered by the train implementing the third equation of motion with velocity v, starting velocity u, constant velocity a, and displacement.

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Without the natural greenhouse effect, heat from the Earth's surface would simply escape into space, resulting in an average temperature of about 20 °C.

Earth would be a frozen wasteland without greenhouse gases. By retaining some of the Earth's heat energy so that it doesn't all escape into space, greenhouse gases keep our planet habitable. The greenhouse effect is a label for this heat-trapping phenomenon. The climate control in your greenhouse needs to be improved because it can help with disease prevention, plant growth stimulation, quality improvement, and even energy savings. The preservation of our planet's habitable temperature depends on "greenhouse gases."

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A physical quantity which has only magnitude is called scalar quantity eg: speed and distance whereas physical quantities which have both magnitude and direction are called vector quantities eg: velocity and displacement.

The distance covered by Sam within the first 13 seconds is 96.75 m.

Given that the mass m of Sam is 80 kg and the force F is 170 N. The coefficient of friction is 0.1.

The net force is given below

Fₙ = F - F₁

Where Fₙ is the net force and F₁ is the friction force.

Fₙ = 170 - μmg

Fₙ = 170 - 0.1 x 80 x 9.8

Fₙ = 91.6

Fₙ = ma

91.6 = 80 x a

a = 91.6 / 80

a = 1.145 m/s²

For the first 13 seconds.

So, the distance covered by Sam with this acceleration is given .

s = ut + 1/2 at²

u is the initial velocity which will be zero and t is the time interval.

So,

s = 1/2 at²

s = 1/2 x 1.145 x 13²

s = 96.75 m

Hence, the distance covered by Sam within the first 13 seconds is 96.75 m.

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An object weighing 254.4 N and inclined at a 40° angle has a gravitational pull of 2380.5.

The formula of a Force is F=Mg.

Where M is the mass of an object, and g is the gravity.

[tex]F_{1}[/tex]=254.4× 10, Value of gravity ≈ 10.

  = 2544

Here F ≠ Mg, due to an angle of 40°.

∴ [tex]F_{ax}= mass. cos \alpha[/tex] .

 =  254.4× cos 40

As cos40 =0.766

=  254.4 ×  0.766

= 194.88

To find a Normal force, use the formula of  Gravitational pull.

[tex]F_{total} = F_{1}-F_{bx}[/tex] , here [tex]F_{bx} = M. sin\alpha[/tex] =163.5

= 2544-163.5

=2380.5

Hence Gravitational pull is 2380.5

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All forms of waves have a definite amplitude, and this amplitude is what determines how loud a sound wave is. In contrast to good surfing waves, which may have an amplitude of 10 feet or more, a wave on a calm ocean will often have a height of less than one foot.

Decreasing.

Determination of a wave's amplitude:

The amplitude of a sound wave determines how loud or loud it is. A louder sound has a bigger amplitude, and a softer sound has a smaller amplitude.

Higher pitch and sharper edges result from decreasing wavelength and increasing frequency. As a result, increasing the frequency makes sounds sharper while increasing the amplitude or intensity increases the volume.

A sound wave's amplitude measures the height of the wave. When a sound is made, the maximum displacement of the medium's vibrating particles from their mean position determines the amplitude of the sound wave.

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Answer:

A

Explanation:

because both energy and temperature ️ increase both are related.

The work calls for a 10k Omega resistance value and a 1 nF capacitance value. Being aware of those output gives us a clear advantage. To get the frequency of unity gain, we can utilize the transfer function (2.34)

The output waveform will consist of positive and negative spikes of size Vsat, which is roughly 13V for a 15V op-amp power source, for a square wave input, let's say 1V peak and 1 KHz.

The differentiated output will be zero whenever the input is held constant at 1V.

For a perfect square wave, the input slope is infinite when it transitions between the t 1V levels.

As a result, the output is clipped to around 13V for a 15V op-amp power source.

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The question was incomplete. Check below the full question.

differentiator utilizes an ideal op amp, a 30 kω resistor, and a 0.03 μf capacitor. what is the frequency 0f in hz at which its input and output sine‐wave signals have equal magnitude? what is the output signal for a 1 v peak‐to‐peak sine‐wave input with frequency equal to 10f₀ ?

The change in momentum of the ball will be biggest in Case 1.

The change in momentum of the ball will be highest in the case 1, where the ball bounce back to it's half the initial height after the collision with the cement floor.

When the ball hits the cement floor, the time of contact between ball and the floor is the very very less. This is why the force imparted by the cement floor on the ball will be very high.

The impulse I imparted on the ball by floor is.

I = ∆F/∆t

As the force is very high and the time of contact is very less. The impulse will be very high. And as we know from the impulse momentum theorem. The impulse is equal to the change in momentum.

So the change in momentum will be biggest in case 1.

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Complete question - Identical balls are dropped from the same initial height and bounce back to half the initial height. In case 1 the ball bounces off a cement floor and in case 2 the ball bounces off a piece of stretchy rubber. In which case is the change in momentum of the ball between the instant just before the ball collides with the floor or rubber and the instant just after the ball leaves the floor or rubber the biggest?

Case 1

Case 2

Same in both

The acceleration of this car is zero. Because Acceleration is the change of velocity with respect to time and since car maintains a constant velocity, there is no acceleration.

The rate at which a velocity changes over time in both direction and speed. A point or object going straight ahead is accelerated when it accelerates or decelerates. Even if the speed is constant, motion on a circle accelerates because the direction is always shifting.

Acceleration is the rate at which speed changes, while speed is the ratio of the distance in a time period. The metric process utilizes meters per second (m/s) as the unit of speed and meters per second squared (m/s²) as the measure of acceleration. Velocity is a scalar quantity, whereas speed is indeed a scalar quantity.

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Answer:

298.8g

Hope this helps! :)

The diagram shows the resulting wave when they cross at point X is the second one (b) because It is the triangle that is pointed upward on the rope's top side and appears to be a little larger than the others.

A wave is a disturbance that can go through a material without permanently moving the material's components. Transverse and longitudinal are known to be the two types.

In a transverse wave, the wave's direction of propagation is parallel to the direction in which the medium's particle vibrations are occurring. Examples include X-rays, light waves, as well as water waves. In contrast, in longitudinal waves, the direction of the particle vibration is said to be parallel to the path of the wave transmission.

Note that it is type of longitudinal wave is a wave in a rope where there is the motion of two wave pulses.

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Answer

the answer is 6.25

Explanation:

Here, the mass of the stone (m) = 0.5 kg, velocity at which it is thrown (v) = 5 m/s, The kinetic energy of the stone (KE) =? We have, Kinetic energy of the stone (KE) = \ (\frac12mv^21) = \(\frac120.5\times5^2\) = 6.25 Joules Hence, the kinetic energy of the stone (KE) is 6.25 joules. Hope it will be helpful

Deceleration is the slowing down of the body as it moves away from its starting place. Negative acceleration is a common term for deceleration.

The kinematic equation was used to get the truck's estimated speed right before braking as

v2 = u2 + 2*acceleration *displacement.

Consequently,

[2*(45.0 m)*(6 m/s)]

= √540 = 23.24 m/s

The velocity, or v, of an object is the rate at which its direction is changing as seen from a particular angle and as measured by a particular unit of time.

The rates at which an object's velocity with respect to time changes are known as accelerations and are stated as constants. Whenever a force is operating on an object, it will always accelerate in a direction that is parallel to that force.

The length of a displacement vector is the smallest distance between the starting and ending coordinates of a moving point P.

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THIS MODEL DOES NOT SHOW THE CORRECT SCALE FOR THE SUN

Answer:

MA of a simple machine is 4. It means that load overcome is 4 times more than effort used in the machine. This machine can multiply force 4 times the effort used.