Answer:
185.95 μsec
Explanation:
Given that:
Sine wave =
Sinusodial signal = 50 kHz =
Rise time is said to be defined as the time needed for a pulse to rise from 10% - 90% of maximum rate.
∴
= 10% = 0.1 Am
=90% = 0.9 Am
Using sine wave for ; we have:
= 0.1 Am
= 0.1
= 5.7392
Using sine wave for ; we have:
= 0.9 Am
=
= 64.158
=
=
Change in rise time = -
=
=
=
since; = 50 kHz =
=
= 1.85952 × 10⁻⁴
= 185.952 × 10⁻⁶ sec
= 185.95 μ sec
∴ The rise in time in (μ sec) for the sinosodial signal at 50 kHz = 185.95 μ sec
Answer:
true
Explanation:
Because the more mass you have, the faster the speed and the greater its potential energy, which is a storage energy.
Answer:
The change in volume decreases the area over which collisions of
the container and gas particles occur, so the pressure increases.
Explanation:
P = F/A = F ÷ V/h = Fh/V
Acceleration of a falling object is directly proportional to
the force of gravity in the object's location.