Answer:
450 kJ
Explanation:
Q = mCΔT
where Q is heat (energy),
m is mass,
C is specific heat capacity,
and ΔT is the temperature change.
Q = (1.2 kg) (4180 J/kg/°C) (100°C − 10°C)
Q = 451,440 J
Q ≈ 450 kJ
Faraday's law is
<span>∈ </span><span>= −N [(<span><span>d<span>ϕB)/(</span></span><span>dt)]
</span></span></span>where N is the number of turns, <span>ϕB</span> is the magnetic flux, and t<span> is time.</span>
The vertical component of
this acceleration will be:
A= mgsin^2 <span> θ</span>
The downward fforce exerted by the hamster on the block and
on the scle will be
F = -ma
The reading will be like this:
Reading = Mg + mg sin^2 θ
= (0.820) (9.8) +
(0.190) (9.8) sin^2 (0)
<span>Reading = 8.036 N</span>
The amount or cost that the user of the energy-efficient bulb save during 100h of use will be $0.319.
<h3>How to calculate the cost?</h3>
For the 11.0W bulb, it should be noted that the value will be:
= 11.0 × 100 × (1/1000) × 0.110
= $0.121
The 40W bulb will be:
= 40 × 100 × (1/1000) × 0.110
= $0.44
Therefore, the amount that will be saved will be:
= $0.44 - $0.121
= $0.319
Learn more about cost on:
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Answer: 12.56 m/s
Explanation:
The velocity of something that is doing a circular motion can be written as:
v = R*w
Where:
v is the velocity.
R is the radius, in this case, we know that it is 8m.
w is the angular velocity, we know that:
w = 2*pi*f
where:
pi = 3.14
f = frequency, this is equal to the inverse of the period, and we know that the period is 4 seconds.
then:
f = 1/4s
w = 2*3.14*(1/4s)
Then the velocity will be:
v = 8m*2*3.14*(1/4s) = 12.56 m/s
The velocity is 12.56 meters per second, and the mass of the passenger does not mater for this particular calculation.