Dicas para potencializar o tratamento dos cabelos em casaCarla Lemos
Pantene me convidou para palestrar no Estética in Rio para contar sobre como tratar cabelos danificados em casa e deixá-los fortes, saudáveis e brilhantes :)
La información en una organización es muy importante ya que se debe saber cómo se está proyectando la empresa y saber si las metas y objetivos propuestas se están o no cumpliendo, para eso se necesita de la información pero que sea fundamentada con datos concretos ya que de eso dependería que la empresa tenga éxito o fracase
O Compliance tem a função de monitorar e assegurar que todos os envolvidos com uma empresa, seja ela de pequeno, médio ou grande porte, esyejam de acordo com as práticas de conduta da mesma e da legislação. Estamos em um momento conturbado no País, onde a palavra "corrupção"está em alta, mas pouco se fala disso no mundo corporativo, e é isso que abordaremos nesta apresentação. Boa Leitura!
Dicas para potencializar o tratamento dos cabelos em casaCarla Lemos
Pantene me convidou para palestrar no Estética in Rio para contar sobre como tratar cabelos danificados em casa e deixá-los fortes, saudáveis e brilhantes :)
La información en una organización es muy importante ya que se debe saber cómo se está proyectando la empresa y saber si las metas y objetivos propuestas se están o no cumpliendo, para eso se necesita de la información pero que sea fundamentada con datos concretos ya que de eso dependería que la empresa tenga éxito o fracase
O Compliance tem a função de monitorar e assegurar que todos os envolvidos com uma empresa, seja ela de pequeno, médio ou grande porte, esyejam de acordo com as práticas de conduta da mesma e da legislação. Estamos em um momento conturbado no País, onde a palavra "corrupção"está em alta, mas pouco se fala disso no mundo corporativo, e é isso que abordaremos nesta apresentação. Boa Leitura!
It is time to start thinking about your health, your life plan, and your progress toward your goals and well-being. An organized plan for a healthy year.
What is greenhouse gasses and how many gasses are there to affect the Earth.moosaasad1975
What are greenhouse gasses how they affect the earth and its environment what is the future of the environment and earth how the weather and the climate effects.
Multi-source connectivity as the driver of solar wind variability in the heli...Sérgio Sacani
The ambient solar wind that flls the heliosphere originates from multiple
sources in the solar corona and is highly structured. It is often described
as high-speed, relatively homogeneous, plasma streams from coronal
holes and slow-speed, highly variable, streams whose source regions are
under debate. A key goal of ESA/NASA’s Solar Orbiter mission is to identify
solar wind sources and understand what drives the complexity seen in the
heliosphere. By combining magnetic feld modelling and spectroscopic
techniques with high-resolution observations and measurements, we show
that the solar wind variability detected in situ by Solar Orbiter in March
2022 is driven by spatio-temporal changes in the magnetic connectivity to
multiple sources in the solar atmosphere. The magnetic feld footpoints
connected to the spacecraft moved from the boundaries of a coronal hole
to one active region (12961) and then across to another region (12957). This
is refected in the in situ measurements, which show the transition from fast
to highly Alfvénic then to slow solar wind that is disrupted by the arrival of
a coronal mass ejection. Our results describe solar wind variability at 0.5 au
but are applicable to near-Earth observatories.
This pdf is about the Schizophrenia.
For more details visit on YouTube; @SELF-EXPLANATORY;
https://www.youtube.com/channel/UCAiarMZDNhe1A3Rnpr_WkzA/videos
Thanks...!
Seminar of U.V. Spectroscopy by SAMIR PANDASAMIR PANDA
Spectroscopy is a branch of science dealing the study of interaction of electromagnetic radiation with matter.
Ultraviolet-visible spectroscopy refers to absorption spectroscopy or reflect spectroscopy in the UV-VIS spectral region.
Ultraviolet-visible spectroscopy is an analytical method that can measure the amount of light received by the analyte.
Professional air quality monitoring systems provide immediate, on-site data for analysis, compliance, and decision-making.
Monitor common gases, weather parameters, particulates.
Cancer cell metabolism: special Reference to Lactate PathwayAADYARAJPANDEY1
Normal Cell Metabolism:
Cellular respiration describes the series of steps that cells use to break down sugar and other chemicals to get the energy we need to function.
Energy is stored in the bonds of glucose and when glucose is broken down, much of that energy is released.
Cell utilize energy in the form of ATP.
The first step of respiration is called glycolysis. In a series of steps, glycolysis breaks glucose into two smaller molecules - a chemical called pyruvate. A small amount of ATP is formed during this process.
Most healthy cells continue the breakdown in a second process, called the Kreb's cycle. The Kreb's cycle allows cells to “burn” the pyruvates made in glycolysis to get more ATP.
The last step in the breakdown of glucose is called oxidative phosphorylation (Ox-Phos).
It takes place in specialized cell structures called mitochondria. This process produces a large amount of ATP. Importantly, cells need oxygen to complete oxidative phosphorylation.
If a cell completes only glycolysis, only 2 molecules of ATP are made per glucose. However, if the cell completes the entire respiration process (glycolysis - Kreb's - oxidative phosphorylation), about 36 molecules of ATP are created, giving it much more energy to use.
IN CANCER CELL:
Unlike healthy cells that "burn" the entire molecule of sugar to capture a large amount of energy as ATP, cancer cells are wasteful.
Cancer cells only partially break down sugar molecules. They overuse the first step of respiration, glycolysis. They frequently do not complete the second step, oxidative phosphorylation.
This results in only 2 molecules of ATP per each glucose molecule instead of the 36 or so ATPs healthy cells gain. As a result, cancer cells need to use a lot more sugar molecules to get enough energy to survive.
Unlike healthy cells that "burn" the entire molecule of sugar to capture a large amount of energy as ATP, cancer cells are wasteful.
Cancer cells only partially break down sugar molecules. They overuse the first step of respiration, glycolysis. They frequently do not complete the second step, oxidative phosphorylation.
This results in only 2 molecules of ATP per each glucose molecule instead of the 36 or so ATPs healthy cells gain. As a result, cancer cells need to use a lot more sugar molecules to get enough energy to survive.
introduction to WARBERG PHENOMENA:
WARBURG EFFECT Usually, cancer cells are highly glycolytic (glucose addiction) and take up more glucose than do normal cells from outside.
Otto Heinrich Warburg (; 8 October 1883 – 1 August 1970) In 1931 was awarded the Nobel Prize in Physiology for his "discovery of the nature and mode of action of the respiratory enzyme.
WARNBURG EFFECT : cancer cells under aerobic (well-oxygenated) conditions to metabolize glucose to lactate (aerobic glycolysis) is known as the Warburg effect. Warburg made the observation that tumor slices consume glucose and secrete lactate at a higher rate than normal tissues.
(May 29th, 2024) Advancements in Intravital Microscopy- Insights for Preclini...Scintica Instrumentation
Intravital microscopy (IVM) is a powerful tool utilized to study cellular behavior over time and space in vivo. Much of our understanding of cell biology has been accomplished using various in vitro and ex vivo methods; however, these studies do not necessarily reflect the natural dynamics of biological processes. Unlike traditional cell culture or fixed tissue imaging, IVM allows for the ultra-fast high-resolution imaging of cellular processes over time and space and were studied in its natural environment. Real-time visualization of biological processes in the context of an intact organism helps maintain physiological relevance and provide insights into the progression of disease, response to treatments or developmental processes.
In this webinar we give an overview of advanced applications of the IVM system in preclinical research. IVIM technology is a provider of all-in-one intravital microscopy systems and solutions optimized for in vivo imaging of live animal models at sub-micron resolution. The system’s unique features and user-friendly software enables researchers to probe fast dynamic biological processes such as immune cell tracking, cell-cell interaction as well as vascularization and tumor metastasis with exceptional detail. This webinar will also give an overview of IVM being utilized in drug development, offering a view into the intricate interaction between drugs/nanoparticles and tissues in vivo and allows for the evaluation of therapeutic intervention in a variety of tissues and organs. This interdisciplinary collaboration continues to drive the advancements of novel therapeutic strategies.
Nutraceutical market, scope and growth: Herbal drug technologyLokesh Patil
As consumer awareness of health and wellness rises, the nutraceutical market—which includes goods like functional meals, drinks, and dietary supplements that provide health advantages beyond basic nutrition—is growing significantly. As healthcare expenses rise, the population ages, and people want natural and preventative health solutions more and more, this industry is increasing quickly. Further driving market expansion are product formulation innovations and the use of cutting-edge technology for customized nutrition. With its worldwide reach, the nutraceutical industry is expected to keep growing and provide significant chances for research and investment in a number of categories, including vitamins, minerals, probiotics, and herbal supplements.
This presentation explores a brief idea about the structural and functional attributes of nucleotides, the structure and function of genetic materials along with the impact of UV rays and pH upon them.
Nucleic Acid-its structural and functional complexity.
TORNILLOS
1.
2. DEFINICIÓN DE UN TORNILLO
S E D E N O M I N A T O R N I L L O A U N E L E M E N T O U
O P E R A D O R M E C Á N I C O C I L Í N D R I C O C O N U N A
C A B E Z A , G E N E R A L M E N T E M E T Á L I C O , A U N Q U E
P U E D E N S E R D E P L Á S T I C O , U T I L I Z A D O E N L A
F I J A C I Ó N T E M P O R A L D E U N A S P I E Z A S C O N O T R A S ,
Q U E E S T Á D O T A D O D E U N A C A Ñ A R O S C A D A C O N
R O S C A T R I A N G U L A R , Q U E M E D I A N T E U N A F U E R Z A
D E T O R S I Ó N E J E R C I D A E N S U C A B E Z A C O N U N A
L L A V E A D E C U A D A O C O N U N D E S T O R N I L L A D O R , S E
P U E D E I N T R O D U C I R E N U N A G U J E R O R O S C A D O A S U
M E D I D A O A T R A V E S A R L A S P I E Z A S Y A C O P L A R S E A
U N A T U E R C A .
3. CARACTERÍSTICAS DE LOS TORNILLOS
L O S T O R N I L L O S E S T Á N F A B R I C A D O S E N M U C H O S M A T E R I A L E S
Y A L E A C I O N E S ; E N L O S T O R N I L L O S R E A L I Z A D O S E N M E T A L S U
R E S I S T E N C I A E S T Á R E L A C I O N A D A C O N L A D E L M A T E R I A L
E M P L E A D O . U N T O R N I L L O D E A L U M I N I O S E R Á M Á S L I G E R O
Q U E U N O D E A C E R O ( A L E A C I Ó N D E H I E R R O Y C A R B O N O ) ,
P E R O S E R Á M E N O S R E S I S T E N T E Y A Q U E E L H I E R R O T I E N E
M E J O R C A P A C I D A D M E T A L Ú R G I C A Q U E E L A L U M I N I O ; U N A
A L E A C I Ó N D E D U R A L U M I N I O M E J O R A R Á L A S C A P A C I D A D E S D E
R E S I S T E N C I A D E L A L U M I N I O P E R O D I S M I N U I R Á L A S D E
T E N A C I D A D , Y A Q U E A L E N D U R E C E R E L A L U M I N I O C O N S I L I C I O
O M E T A L E S C O M O C R O M O O T I T A N I O , S E A U M E N T A R Á S U
D U R E Z A P E R O T A M B I É N S U C O E F I C I E N T E D E F R A G I L I D A D A
P A R T I R S E .
L O S T O R N I L L O S L O S D E F I N E N L A S S I G U I E N T E S
C A R A C T E R Í S T I C A S :
D I Á M E T R O E X T E R I O R D E L A C A Ñ A : E N E L S I S T E M A
M É T R I C O S E E X P R E S A E N M M Y E N E L S I S T E M A I N G L É S E N
F R A C C I O N E S D E P U L G A D A .
T I P O D E R O S C A : M É T R I C A , W H I T W O R T H , T R A P E C I A L ,
R E D O N D A , E N D I E N T E D E S I E R R A , E L É C T R I C A , E T C . L A S
R O S C A S P U E D E N S E R E X T E R I O R E S O M A C H O S ( T O R N I L L O S ) O
B I E N I N T E R I O R E S O H E M B R A S ( T U E R C A S ) , D E B I E N D O S E R S U S
M A G N I T U D E S C O H E R E N T E S P A R A Q U E A M B O S E L E M E N T O S
P U E D A N E N R O S C A R S E .
P A S O D E L A R O S C A : D I S T A N C I A Q U E H A Y E N T R E D O S
C R E S T A S S U C E S I V A S . E N E L S I S T E M A M É T R I C O S E E X P R E S A
E N M M Y E N E L S I S T E M A I N G L É S P O R E L N Ú M E R O D E H I L O S
Q U E H A Y E N U N A P U L G A D A .
4. CARACTERÍSTICAS DE LOS TORNILLOS
S E N T I D O D E L A H É L I C E D E L A R O S C A : A D E R E C H A S O A
I Z Q U I E R D A S . L A M A Y O R Í A D E L A T O R N I L L E R Í A T I E N E
R O S C A A D E R E C H A S , P E R O P A R A A P L I C A C I O N E S
E S P E C I A L E S , C O M O E N E J E S D E M Á Q U I N A S ,
C O N T R A T U E R C A S , E T C . T I E N E N A L G U N A V E Z R O S C A A
I Z Q U I E R D A S . L O S T O R N I L L O S D E L A S R U E D A S D E L O S
V E H Í C U L O S I N D U S T R I A L E S T I E N E N R O S C A S D E D I F E R E N T E
S E N T I D O E N L O S T O R N I L L O S D E L A S R U E D A S D E L A
D E R E C H A ( A D E R E C H A S ) Q U E E N L O S D E L A I Z Q U I E R D A ( A
I Z Q U I E R D A S ) .
M A T E R I A L C O N S T I T U Y E N T E Y R E S I S T E N C I A M E C Á N I C A
Q U E T I E N E N : S A L V O E X C E P C I O N E S L A M A Y O R P A R T E D E
T O R N I L L O S S O N D E A C E R O E N D I F E R E N T E S G R A D O S D E
A L E A C I Ó N Y C O N D I F E R E N T E R E S I S T E N C I A M E C Á N I C A .
P A R A M A D E R A S E U T I L I Z A N M U C H O L O S T O R N I L L O S D E
L A T Ó N
T I P O D E C A B E Z A : E N E S T R E L L A O P H I L L I P S , B R I S T O L ,
D E P A L A Y A L G U N O S O T R O S E S P E C I A L E S .
5. TIPOS DE TORNILLOS
L O S T O R N I L L O S P A R A M A D E R A R E C I B E N E L N O M B R E D E
T I R A F O N D O P A R A M A D E R A . S U T A M A Ñ O Y C A L I D A D E S T Á
R E G U L A D O P O R L A N O R M A D I N - 9 7 Y T I E N E N U N A R O S C A
Q U E O C U P A 3 / 4 D E L A L O N G I T U D D E L A E S P I G A . P U E D E N
S E R D E A C E R O D I L C E , I N O X I D A B L E , L A T Ó N , C O B R E ,
B R O N C E , A L U M I N I O Y P U E D E N E S T A R G A L V A N I Z A D O S ,
N I Q U E L A D O S , B I C R O M A T A D O S , E T C .
- C A B E Z A P L A N A : S E U S A E N C A R P I N T E R Í A , E N G E N E R A L ,
E N D O N D E E S N E C E S A R I O D E J A R L A C A B E Z A D E L
T O R N I L L O S U M E R G I D A O A R A S C O N L A S U P E R F I C I E .
- C A B E Z A O V A L : L A P O R C I Ó N I N F E R I O R D E L A C A B E Z A
T I E N E U N A F O R M A Q U E L E P E R M I T E H U N D I R S E E N L A
S U P E R F I C I E Y D E J A R S O B R E S A L I E N D O S Ó L O L A P A R T E
S U P E R I O R R E D O N D E A D A . S O N M Á S F Á C I L E S P A R A S A C A R
Y T I E N E N M E J O R P R E S E N T A C I Ó N Q U E L O S D E C A B E Z A
P L A N A . S E U S A N P A R A F I J A C I Ó N D E E L E M E N T O S
M E T Á L I C O S , C O M O H E R R A M I E N T A S O C H A P A S D E
P I C A P O R T E S .
- C A B E Z A R E D O N D E A D A : S E U S A P A R A F I J A R P I E Z A S
D E M A S I A D O D E L G A D A S C O M O P A R A P E R M I T I R Q U E E L
T O R N I L L O S E H U N D A E N E L L A S ; T A M B I É N P A R A U N I R
P A R T E S Q U E R E Q U E R I R Á N A R A N D E L A S .
6. TIPOS DE TORNILLOS
- L A S C A B E Z A S P U E D E N S E R D E D I F E R E N T E S C L A S E S :
- C A B E Z A F R E S A D A ( R A N U R A R E C T A ) : T I E N E N L A S
R A N U R A S R E C T A S T R A D I C I O N A L E S .
- C A B E Z A P H I L L I P S : T I E N E N R A N U R A S E N F O R M A D E
C R U Z P A R A M I N I M I Z A R L A P O S I B I L I D A D D E Q U E E L
D E S T O R N I L L A D O R S E D E S L I C E .
- C A B E Z A T I P O A L L E N : C O N U N H U E C O H E X A G O N A L ,
P A R A E N C A J A R U N A L L A V E A L E N .
- C A B E Z A T O R X : C O N U N H U E C O E N L A C A B E Z A E N
F O R M A D E E S T R E L L A D E D I S E Ñ O E X C L U S I V O T O R X .