Energy
in sentence
8191 examples of Energy in a sentence
The other thing is, most boats, when they reach a certain speed, and they are going on waves, they start to hit and slap on the surface of the water, and a lot of the
energy
moving forward is lost.
But if we're going with the flow, if we pay attention to natural patterns instead of trying to be strong, but if you're going with the flow, we may absorb a lot of environmental noises, so the wave energy, to actually save some
energy
to move forward.
We tested it many times over, and the next version we came up with was a box that kind of could trickle charge on solar energy, but most importantly connect to a car battery, because a car battery is a ubiquitous source of power in places where there's not enough electricity or erratic electricity.
Usually, dance has a stimulus or stimuli, and I thought I'd take something simple, TED logo, we can all see it, it's quite easy to work with, and I'm going to do something very simply, where you take one idea from a body, and it happens to be my body, and translate that into somebody else's body, so it's a direct transfer, transformation of
energy.
CA: And as you think of your life going forward, you're 19 now, do you picture continuing with this dream of working in
energy?
I'm still thinking to work on
energy.
And as jobs continue to leave my community, and
energy
continues to come in, be exported in, it's no wonder that really some people refer to the South Bronx as a desert.
That requires a lot of patience and a lot of
energy.
Because you simply won't commit that kind of
energy
and time if you don't really care.
Mother Nature is creative
energy
waiting to be born.
As the
energy
needs are met and electricity is needed [we will need] poles for rolling out electricity.
My fear grows fat on the
energy
I feed it.
Can we do it another way, using the language of particles around a nucleus, and talk about the body as an
energy
center?
No longer about statues, no longer having to take that duty of standing, the standing of a human body, or the standing of a statue, release it, allow it to be an
energy
field, a space in space that talks about human life, between becoming an entropy as a sort of concentration of attention, a human place of possibility in space at large.
But what keeps me up at night is that our
energy
use for cooling might grow sixfold by the year 2050, primarily driven by increasing usage in Asian and African countries.
How do you actually save
energy
with this idea?
Well, we believe the most direct way to save
energy
with this technology is as an efficiency boost for today's air-conditioning and refrigeration systems.
In the future, we might be able to integrate these kinds of panels with higher efficiency building cooling systems to reduce their
energy
usage by two-thirds.
We're constantly bathed in infrared light; if we could bend it to our will, we could profoundly change the flows of heat and
energy
that permeate around us every single day.
This ability, coupled with the cold darkness of space, points us to a future where we, as a civilization, might be able to more intelligently manage our thermal
energy
footprint at the very largest scales.
Instead of fossil fuel
energy
and large-scale manufacturing, we've got renewable
energy
networks, digital platforms and 3D printing.
If we can harness today's technologies, from AI to blockchain to the Internet of Things to material science, if we can harness these in service of distributive design, we can ensure that health care, education, finance, energy, political voice reaches and empowers those people who need it most.
But I would argue that if we want to see the kinds of innovations, the hopeful and exciting innovations that we hear talked about here at TED, in clean energy, in clean education, in development, if we want to see those adopted and we want to see those scaled, we want to see them become the governance of tomorrow, then we must all participate, then we must get involved.
It was a center of entertainment, of
energy
production, of work, a center of health care.
You had centralized
energy
production.
Cities will account for 90 percent of the population growth, 80 percent of the global CO2, 75 percent of
energy
use, but at the same time it's where people want to be, increasingly.
It recognizes where the person is, what they're doing, fills out the light when necessary to full spectrum white light, and saves maybe 30, 40 percent in
energy
consumption, we think, over even conventional state-of-the-art lighting systems.
There's no reason why we can't dramatically improve the livability and creativity of cities like they've done in Melbourne with the laneways while at the same time dramatically reducing CO2 and
energy.
Imagine that we build an enclosure where we put it just underwater, and we fill it with wastewater and some form of microalgae that produces oil, and we make it out of some kind of flexible material that moves with waves underwater, and the system that we're going to build, of course, will use solar
energy
to grow the algae, and they use CO2, which is good, and they produce oxygen as they grow.
They of course use solar
energy
to grow, and the wave
energy
on the surface provides
energy
for mixing the algae, and the temperature is controlled by the surrounding water temperature.
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